+++ /dev/null
-#!/bin/sh
-
-echo "********************************************************"
-echo "* Insert the root dir \$root *"
-echo "* Files will be installed in \$root/local/lib/helm and *"
-echo "* in \$root/local/lib/etc/helm/ *"
-echo "********************************************************"
-echo -n "\$root="
-read ROOT "buondi"
-
-echo cp local/lib/helm/configuration.pl $ROOT/local/lib/helm/
-cp local/lib/helm/configuration.pl $ROOT/local/lib/helm/
-
-echo cp local/etc/helm/configuration.xml $ROOT/local/etc/helm/
-cp local/etc/helm/configuration.xml $ROOT/local/etc/helm/
-
-echo cp local/etc/helm/configuration.dtd $ROOT/local/etc/helm/
-cp local/etc/helm/configuration.dtd $ROOT/local/etc/helm/
+++ /dev/null
-<?xml encoding="ISO-8859-1"?>
-
-<!--*****************************************************************-->
-<!-- DTD FOR HELM CONFIGURATION FILE: -->
-<!-- First draft: June 6 2000, Claudio Sacerdoti Coen -->
-<!-- Last Revision: June 6 2000, Claudio Sacerdoti Coen -->
-<!--*****************************************************************-->
-
-<!ELEMENT configuration (helm_dir, dtd_dir, servers_file, uris_dbm, dest,
- indexname, tmpdir, helm_url_path,
- getheader_url, style_url, webeq_url, webeqp_url,
- use_webeqp_url, html_link, getter_url)>
-
-<!ENTITY % expr '(#PCDATA | value-of)*'>
-
-<!ELEMENT value-of EMPTY>
-<!ATTLIST value-of
- var NMTOKEN #REQUIRED >
-
-<!ELEMENT helm_dir %expr;>
-<!ELEMENT dtd_dir %expr;>
-<!ELEMENT servers_file %expr;>
-<!ELEMENT uris_dbm %expr;>
-<!ELEMENT dest %expr;>
-<!ELEMENT indexname %expr;>
-<!ELEMENT tmpdir %expr;>
-<!ELEMENT helm_url_path %expr;>
-<!ELEMENT getheader_url %expr;>
-<!ELEMENT style_url %expr;>
-<!ELEMENT webeq_url %expr;>
-<!ELEMENT webeqp_url %expr;>
-<!ELEMENT use_webeqp_url %expr;>
-<!ELEMENT html_link %expr;>
-<!ELEMENT getter_url %expr;>
+++ /dev/null
-<?xml version="1.0" encoding="ISO-8859-1"?>
-<!DOCTYPE configuration SYSTEM "configuration.dtd">
-
-<configuration>
- <helm_dir>/home/pauillac/coq3/sacerdot/HELM/interface/examples</helm_dir>
-
- <dtd_dir><value-of var="helm_dir"/>/dtd</dtd_dir>
- <servers_file>/home/pauillac/coq3/sacerdot/HELM/interface/servers.txt</servers_file>
- <uris_dbm>/home/pauillac/coq3/sacerdot/HELM/interface/urls_of_uris</uris_dbm>
- <dest><value-of var="helm_dir"/></dest>
- <indexname>index.txt</indexname>
- <tmpdir>/tmp</tmpdir>
-
- <helm_url_path>/home/lpadovan/helm/PARSER/examples</helm_url_path>
- <getheader_url>http://localhost/really_very_local/helm/header/getheader.xml</getheader_url>
- <style_url>http://localhost/really_very_local/helm/style/</style_url>
- <webeq_url>http://localhost/cgi-bin/helm/webeq.pl</webeq_url>
- <webeqp_url>http://localhost/cgi-bin/helm/webeqp.pl</webeqp_url>
- <use_webeqp_url>http://localhost/cgi-bin/helm/use_webeqp.pl</use_webeqp_url>
- <html_link><value-of var="getheader_url"/>?baseurl=<value-of var="style_url"/>&stylesheet1=rootcontent.xsl&stylesheet2=content_to_html.xsl&xmlfile=</html_link>
- <getter_url>http://localhost:8081/getwithtypes?url=</getter_url>
-</configuration>
+++ /dev/null
-use XML::Parser;
-
-# this should be the only fixed constant
-$configuration_file = "/home/cadet/sacerdot/local/etc/helm/configuration.xml";
-
-$parser = new XML::Parser(Handlers => {Start => \&handle_start,
- End => \&handle_end,
- Char => \&handle_char});
-
-
-$parser->parsefile($configuration_file, ErrorContext => 3);
-
-
-sub handle_start
-{
- if ($_[1] eq "value-of") {
- $$varname .= ${$_[3]};
- } elsif ($_[1] ne "configuration") {
- $varname = $_[1];
- }
-}
-
-sub handle_end
-{
- if ($_[1] ne "value-of" && $_[1] ne "configuration") {
- # Next line for debugging only:
- # print "OK: #$_[1]# := #$$varname#\n";
- $varname = undef;
- }
-}
-
-sub handle_char
-{
- $$varname .= $_[1];
-}
+++ /dev/null
-*.cmo
-*.cmx
-*.cmi
-
-experiment
-experiment.opt
-fix_params
-fix_params.opt
-mmlinterface
-mmlinterface.opt
-reduction
-reduction.opt
+++ /dev/null
-experiment.cmo: cicCache.cmi cicPp.cmi configuration.cmo getter.cmi \
- uriManager.cmi
-experiment.cmx: cicCache.cmx cicPp.cmx configuration.cmx getter.cmx \
- uriManager.cmx
-cicCache.cmo: annotationParser.cmo cic.cmo cicParser.cmi cicSubstitution.cmi \
- deannotate.cmo getter.cmi uriManager.cmi cicCache.cmi
-cicCache.cmx: annotationParser.cmx cic.cmx cicParser.cmx cicSubstitution.cmx \
- deannotate.cmx getter.cmx uriManager.cmx cicCache.cmi
-cicCache.cmi: cic.cmo uriManager.cmi
-cicPp.cmo: cic.cmo cicCache.cmi uriManager.cmi cicPp.cmi
-cicPp.cmx: cic.cmx cicCache.cmx uriManager.cmx cicPp.cmi
-cicPp.cmi: cic.cmo
-cicParser.cmo: cicParser2.cmi cicParser3.cmi pxpUriResolver.cmo \
- uriManager.cmi cicParser.cmi
-cicParser.cmx: cicParser2.cmx cicParser3.cmx pxpUriResolver.cmx \
- uriManager.cmx cicParser.cmi
-cicParser.cmi: cic.cmo uriManager.cmi
-cicParser2.cmo: cic.cmo cicParser3.cmi uriManager.cmi cicParser2.cmi
-cicParser2.cmx: cic.cmx cicParser3.cmx uriManager.cmx cicParser2.cmi
-cicParser2.cmi: cic.cmo cicParser3.cmi
-cicParser3.cmo: cic.cmo uriManager.cmi cicParser3.cmi
-cicParser3.cmx: cic.cmx uriManager.cmx cicParser3.cmi
-cicParser3.cmi: cic.cmo uriManager.cmi
-cic.cmo: uriManager.cmi
-cic.cmx: uriManager.cmx
-getter.cmo: configuration.cmo uriManager.cmi getter.cmi
-getter.cmx: configuration.cmx uriManager.cmx getter.cmi
-getter.cmi: uriManager.cmi
-cicReduction.cmo: cic.cmo cicCache.cmi cicPp.cmi cicSubstitution.cmi \
- uriManager.cmi cicReduction.cmi
-cicReduction.cmx: cic.cmx cicCache.cmx cicPp.cmx cicSubstitution.cmx \
- uriManager.cmx cicReduction.cmi
-cicReduction.cmi: cic.cmo
-cicTypeChecker.cmo: cic.cmo cicCache.cmi cicPp.cmi cicReduction.cmi \
- cicSubstitution.cmi uriManager.cmi cicTypeChecker.cmi
-cicTypeChecker.cmx: cic.cmx cicCache.cmx cicPp.cmx cicReduction.cmx \
- cicSubstitution.cmx uriManager.cmx cicTypeChecker.cmi
-cicTypeChecker.cmi: uriManager.cmi
-reduction.cmo: cic.cmo cicCache.cmi cicPp.cmi cicReduction.cmi \
- cicTypeChecker.cmi configuration.cmo getter.cmi uriManager.cmi
-reduction.cmx: cic.cmx cicCache.cmx cicPp.cmx cicReduction.cmx \
- cicTypeChecker.cmx configuration.cmx getter.cmx uriManager.cmx
-theoryParser.cmo: pxpUriResolver.cmo theoryParser2.cmo
-theoryParser.cmx: pxpUriResolver.cmx theoryParser2.cmx
-theoryParser2.cmo: theory.cmo
-theoryParser2.cmx: theory.cmx
-theoryTypeChecker.cmo: cicCache.cmi cicTypeChecker.cmi theory.cmo \
- theoryCache.cmo uriManager.cmi
-theoryTypeChecker.cmx: cicCache.cmx cicTypeChecker.cmx theory.cmx \
- theoryCache.cmx uriManager.cmx
-cicCooking.cmo: cic.cmo cicCache.cmi uriManager.cmi cicCooking.cmi
-cicCooking.cmx: cic.cmx cicCache.cmx uriManager.cmx cicCooking.cmi
-cicCooking.cmi: cic.cmo uriManager.cmi
-cicFindParameters.cmo: cic.cmo cic2Xml.cmo cicCache.cmi configuration.cmo \
- uriManager.cmi xml.cmi
-cicFindParameters.cmx: cic.cmx cic2Xml.cmx cicCache.cmx configuration.cmx \
- uriManager.cmx xml.cmx
-theoryCache.cmo: getter.cmi theoryParser.cmo
-theoryCache.cmx: getter.cmx theoryParser.cmx
-fix_params.cmo: cicFindParameters.cmo configuration.cmo deannotate.cmo \
- getter.cmi uriManager.cmi
-fix_params.cmx: cicFindParameters.cmx configuration.cmx deannotate.cmx \
- getter.cmx uriManager.cmx
-cic2Xml.cmo: cic.cmo uriManager.cmi xml.cmi
-cic2Xml.cmx: cic.cmx uriManager.cmx xml.cmx
-xml.cmo: xml.cmi
-xml.cmx: xml.cmi
-uriManager.cmo: uriManager.cmi
-uriManager.cmx: uriManager.cmi
-cicSubstitution.cmo: cic.cmo cicSubstitution.cmi
-cicSubstitution.cmx: cic.cmx cicSubstitution.cmi
-cicSubstitution.cmi: cic.cmo uriManager.cmi
-mmlinterface.cmo: annotation2Xml.cmo cicAnnotationHinter.cmo cicCache.cmi \
- cicTypeChecker.cmi cicXPath.cmo configuration.cmo getter.cmi \
- theoryTypeChecker.cmo uriManager.cmi xml.cmi xsltProcessor.cmo
-mmlinterface.cmx: annotation2Xml.cmx cicAnnotationHinter.cmx cicCache.cmx \
- cicTypeChecker.cmx cicXPath.cmx configuration.cmx getter.cmx \
- theoryTypeChecker.cmx uriManager.cmx xml.cmx xsltProcessor.cmx
-xsltProcessor.cmo: configuration.cmo uriManager.cmi
-xsltProcessor.cmx: configuration.cmx uriManager.cmx
-deannotate.cmo: cic.cmo
-deannotate.cmx: cic.cmx
-cicXPath.cmo: cic.cmo
-cicXPath.cmx: cic.cmx
-pxpUriResolver.cmo: configuration.cmo
-pxpUriResolver.cmx: configuration.cmx
-annotationParser.cmo: annotationParser2.cmo pxpUriResolver.cmo
-annotationParser.cmx: annotationParser2.cmx pxpUriResolver.cmx
-annotationParser2.cmo: cic.cmo
-annotationParser2.cmx: cic.cmx
-annotation2Xml.cmo: cic.cmo uriManager.cmi xml.cmi
-annotation2Xml.cmx: cic.cmx uriManager.cmx xml.cmx
-cicAnnotationHinter.cmo: cic.cmo
-cicAnnotationHinter.cmx: cic.cmx
+++ /dev/null
-==============================
-ISTRUZIONI PER CHI USA LA TCSH
-==============================
-
-Lanciare:
-
- source PER_FARLO_ANDARE_TCSH
-
-Poi far partire altri due xterm.
-Nel primo lanciare:
-
- make start-xaland3
-
-Nel secondo lanciare:
-
- make start-http-getter
-
-Se non funziona significa che ce ne e' gia' uno attivo.
-
-Infini lanciare, dall'ultima shell,
-
- ./mmlinterface.opt.saved
+++ /dev/null
-LABLGTK_DIR = /usr/lib/ocaml/lablgtk
-LABLGTK_MATHVIEW_DIR = /usr/lib/ocaml/lablgtk/mathview
-PXP_DIR = /usr/lib/ocaml/site-lib/pxp
-NETSTRING_DIR = /usr/lib/ocaml/site-lib/netstring
-OCAMLC = ocamlc -I $(LABLGTK_DIR) -I $(LABLGTK_MATHVIEW_DIR) -I $(PXP_DIR) -I $(NETSTRING_DIR) -I mlmathview
-OCAMLOPT = ocamlopt -I $(LABLGTK_DIR) -I $(LABLGTK_MATHVIEW_DIR) -I mlgtk_devel -I $(PXP_DIR) -I $(NETSTRING_DIR) -I mlmathview
-OCAMLDEP = ocamldep
-
-all: experiment reduction fix_params mmlinterface
-opt: experiment.opt reduction.opt fix_params.opt mmlinterface.opt
-
-PXPLIBS = netstring.cma netmappings_iso.cmo netmappings_other.cmo \
- pxp_types.cma \
- pxp_lex_iso88591.cma pxp_lex_utf8.cma pxp_engine.cma \
- pxp_utf8.cmo
-
-PXPLIBSOPT = netstring.cmxa netmappings_iso.cmx netmappings_other.cmx \
- pxp_types.cmxa \
- pxp_lex_iso88591.cmxa pxp_lex_utf8.cmxa pxp_engine.cmxa \
- pxp_utf8.cmx
-
-
-DEPOBJS = experiment.ml cicCache.ml cicCache.mli cicPp.ml cicPp.mli \
- cicParser.ml cicParser.mli cicParser2.ml cicParser2.mli \
- cicParser3.ml cicParser3.mli cic.ml getter.ml getter.mli \
- gtkInterface.ml cicReduction.ml cicReduction.mli cicTypeChecker.ml \
- cicTypeChecker.mli reduction.ml tgtkInterface.ml theory.ml \
- theoryParser.ml theoryParser2.ml theoryPp.ml theoryTypeChecker.ml \
- cicCooking.ml cicCooking.mli cicFindParameters.ml theoryCache.ml \
- fix_params.ml cic2Xml.ml xml.ml uriManager.ml uriManager.mli \
- cicSubstitution.ml cicSubstitution.mli mml.ml \
- mmlinterface.ml configuration.ml \
- xsltProcessor.ml deannotate.ml cicXPath.ml pxpUriResolver.ml \
- annotationParser.ml annotationParser2.ml annotation2Xml.ml \
- cicAnnotationHinter.ml
-
-MMLINTERFACEOBJS = configuration.cmo uriManager.cmo getter.cmo cic.cmo \
- pxpUriResolver.cmo \
- cicParser3.cmo cicParser2.cmo cicParser.cmo deannotate.cmo \
- cicSubstitution.cmo annotationParser2.cmo \
- annotationParser.cmo cicCache.cmo cicCooking.cmo cicPp.cmo \
- cicReduction.cmo cicTypeChecker.cmo mml.cmo \
- xml.cmo \
- xsltProcessor.cmo cic2Xml.cmo annotation2Xml.cmo \
- cicXPath.cmo theory.cmo theoryParser2.cmo theoryParser.cmo \
- theoryCache.cmo theoryTypeChecker.cmo \
- cicAnnotationHinter.cmo mmlinterface.cmo
-
-MMLINTERFACEOPTOBJS = configuration.cmx uriManager.cmx getter.cmx cic.cmx \
- pxpUriResolver.cmx \
- cicParser3.cmx cicParser2.cmx cicParser.cmx \
- deannotate.cmx cicSubstitution.cmx annotationParser2.cmx \
- annotationParser.cmx cicCache.cmx \
- cicCooking.cmx cicPp.cmx cicReduction.cmx \
- cicTypeChecker.cmx mml.cmx \
- xml.cmx xsltProcessor.cmx \
- cic2Xml.cmx annotation2Xml.cmx cicXPath.cmx \
- theory.cmx theoryParser2.cmx theoryParser.cmx \
- theoryCache.cmx theoryTypeChecker.cmx \
- cicAnnotationHinter.cmx mmlinterface.cmx
-
-FIX_PARAMSOBJS = configuration.cmo uriManager.cmo getter.cmo cic.cmo \
- pxpUriResolver.cmo \
- cicParser3.cmo cicParser2.cmo cicParser.cmo deannotate.cmo \
- cicSubstitution.cmo annotationParser2.cmo \
- annotationParser.cmo cicCache.cmo cicPp.cmo xml.cmo \
- cic2Xml.cmo cicFindParameters.cmo fix_params.cmo
-
-FIX_PARAMSOPTOBJS = configuration.cmx uriManager.cmx getter.cmx cic.cmx \
- pxpUriResolver.cmx \
- cicParser3.cmx cicParser2.cmx cicParser.cmx deannotate.cmx \
- cicSubstitution.cmx annotationParser2.cmx \
- annotationParser.cmx cicCache.cmx cicPp.cmx xml.cmx \
- cic2Xml.cmx cicFindParameters.cmx fix_params.cmx
-
-REDUCTIONOBJS = configuration.cmo uriManager.cmo getter.cmo cic.cmo \
- pxpUriResolver.cmo \
- cicParser3.cmo cicParser2.cmo cicParser.cmo deannotate.cmo \
- cicSubstitution.cmo annotationParser2.cmo annotationParser.cmo \
- cicCache.cmo cicPp.cmo cicCooking.cmo \
- cicReduction.cmo cicTypeChecker.cmo reduction.cmo
-
-REDUCTIONOPTOBJS = configuration.cmx uriManager.cmx getter.cmx cic.cmx \
- pxpUriResolver.cmx \
- cicParser3.cmx cicParser2.cmx cicParser.cmx deannotate.cmx \
- cicSubstitution.cmx annotationParser2.cmx \
- annotationParser.cmx cicCache.cmx cicPp.cmx cicCooking.cmx \
- cicReduction.cmx cicTypeChecker.cmx reduction.cmx
-
-EXPERIMENTOBJS = configuration.cmo uriManager.cmo getter.cmo cic.cmo \
- pxpUriResolver.cmo \
- cicParser3.cmo cicParser2.cmo cicParser.cmo deannotate.cmo \
- cicSubstitution.cmo annotationParser2.cmo \
- annotationParser.cmo cicCache.cmo cicPp.cmo experiment.cmo
-
-EXPERIMENTOPTOBJS = configuration.cmx uriManager.cmx getter.cmx cic.cmx \
- pxpUriResolver.cmx \
- cicParser3.cmx cicParser2.cmx cicParser.cmx deannotate.cmx \
- cicSubstitution.cmx annotationParser2.cmx \
- annotationParser.cmx cicCache.cmx cicPp.cmx experiment.cmx
-
-depend:
- $(OCAMLDEP) $(DEPOBJS) > .depend
-
-mmlinterface: $(MMLINTERFACEOBJS)
- $(OCAMLC) -custom -o mmlinterface str.cma unix.cma $(PXPLIBS) dbm.cma \
- lablgtk.cma gtkInit.cmo \
- $(LABLGTK_MATHVIEW_DIR)/lablgtkmathview.cma \
- $(MMLINTERFACEOBJS) \
- -cclib "-lstr -L/usr/lib -L/usr/X11R6/lib -lgtk -lgdk \
- -rdynamic -lgmodule -lglib -ldl -lXi -lXext -lX11 -lm \
- -lunix -L/usr/local/lib/gtkmathview -lgtkmathview \
- $(LABLGTK_MATHVIEW_DIR)/ml_gtk_mathview.o" \
- -cclib -lmldbm -cclib -lndbm
-
-mmlinterface.opt: $(MMLINTERFACEOPTOBJS)
- $(OCAMLOPT) -o mmlinterface.opt str.cmxa $(PXPLIBSOPT) unix.cmxa \
- dbm.cmxa lablgtk.cmxa gtkInit.cmx \
- $(LABLGTK_MATHVIEW_DIR)/lablgtkmathview.cmxa \
- $(MMLINTERFACEOPTOBJS) \
- -cclib "-lstr -L/usr/lib -L/usr/X11R6/lib -lgtk -lgdk \
- -rdynamic -lgmodule -lglib -ldl -lXi -lXext -lX11 -lm \
- -lunix -L/usr/local/lib/gtkmathview -lgtkmathview \
- $(LABLGTK_MATHVIEW_DIR)/ml_gtk_mathview.o" \
- -cclib -lmldbm -cclib -lndbm
-
-fix_params: $(FIX_PARAMSOBJS)
- $(OCAMLC) -custom -o fix_params str.cma $(PXPLIBS) dbm.cma \
- $(FIX_PARAMSOBJS) -cclib -lstr -cclib -lmldbm -cclib -lndbm
-
-fix_params.opt: $(FIX_PARAMSOPTOBJS)
- $(OCAMLOPT) -o fix_params.opt str.cmxa $(PXPLIBSOPT) dbm.cmxa \
- $(FIX_PARAMSOPTOBJS) -cclib -lstr -cclib -lmldbm \
- -cclib -lndbm
-
-reduction: $(REDUCTIONOBJS)
- $(OCAMLC) -custom -o reduction str.cma $(PXPLIBS) dbm.cma \
- $(REDUCTIONOBJS) -cclib -lstr -cclib -lmldbm -cclib -lndbm
-
-reduction.opt: $(REDUCTIONOPTOBJS)
- $(OCAMLOPT) -o reduction.opt str.cmxa $(PXPLIBSOPT) dbm.cmxa \
- $(REDUCTIONOPTOBJS) -cclib -lstr -cclib -lmldbm \
- -cclib -lndbm
-
-experiment: $(EXPERIMENTOBJS)
- $(OCAMLC) -custom -o experiment str.cma $(PXPLIBS) dbm.cma \
- $(EXPERIMENTOBJS) -cclib -lstr -cclib -lmldbm -cclib -lndbm
-
-experiment.opt: $(EXPERIMENTOPTOBJS)
- $(OCAMLOPT) -o experiment.opt str.cmxa $(PXPLIBSOPT) dbm.cmxa \
- $(EXPERIMENTOPTOBJS) -cclib -lstr -cclib -lmldbm \
- -cclib -lndbm
-
-.SUFFIXES: .ml .mli .cmo .cmi .cmx
-.ml.cmo:
- $(OCAMLC) -c $<
-.mli.cmi:
- $(OCAMLC) -c $<
-.ml.cmx:
- $(OCAMLOPT) -c $<
-
-clean:
- rm -f *.cm[iox] *.o experiment experiment.opt reduction \
- reduction.opt fix_params fix_params.opt mmlinterface \
- mmlinterface.opt mmlinterface2 mmlinterface2.opt
-
-start-xaland:
- java xaland 12345 12346 examples/style/rootcontent.xsl \
- examples/style/annotatedpres.xsl examples/style/theory_content.xsl \
- examples/style/theory_pres.xsl
-
-start-xaland3:
- java xaland 12347 12348 examples/style/rootcontent.xsl \
- examples/style/annotatedpres.xsl examples/style/theory_content.xsl \
- examples/style/theory_pres.xsl
-
-start-http-getter:
- http_getter/http_getter.pl
-
-include .depend
+++ /dev/null
-
- ***********************************************************************
-
- A T T E N Z I O N E ! ! !
-
- Quando si usa fix_params.opt, scrivere
-
- find /really_very_local/helm/PARSER/examples
-
- invece di examples
-
- ***********************************************************************
-
- PROBLEMA NON FIXATO CON fix_params
-
- LA SOLUZIONE E'
-
-
-
-Correggere:
-
- examples/coq/SETS/Powerset_facts/Sets_as_an_algebra/setcover_intro.con.xml
-
-aggiungendo paramMode="POSSIBLE"
-
-Un esempio che altrimenti non funziona e':
-
-examples/coq/SETS/Powerset_Classical_facts/Sets_as_an_algebra/Add_covers.con.xml
-
+++ /dev/null
-export LD_LIBRARY_PATH=.:/really_very_local/helm/proveluca/mml-browser/
-export no_proxy=cs.unibo.it
+++ /dev/null
-setenv PATH "/home/projects/java/jdk1.2.2/bin:$PATH"
-setenv CLASSPATH "/really_very_local/helm/java/xalan_1_1/xalan.jar:/really_very_local/helm/java/xalan_1_1/xerces.jar:."
-setenv CLASSPATH "/really_very_local/helm/java/saxon-5.3.2/saxon.jar:$CLASSPATH"
-setenv LD_LIBRARY_PATH ".:/really_very_local/helm/proveluca/mml-browser/"
+++ /dev/null
-setenv PATH "/home/projects/java/jdk1.2.2/bin:$PATH"
-setenv CLASSPATH "/really_very_local/helm/java/xalan_1_2_D01/xalan.jar:/really_very_local/helm/java/xalan_1_2_D01/xerces.jar:."
-setenv CLASSPATH "/really_very_local/helm/java/saxon-5.3.2/saxon.jar:$CLASSPATH"
-setenv LD_LIBRARY_PATH ".:/really_very_local/helm/proveluca/mml-browser/"
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* A tactic to print Coq objects in XML *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 22/11/1999 *)
-(******************************************************************************)
-
-This is the main directory of the coq-like pretty printer for cic terms exported
-in xml from Coq. Once compiled four different executables are made:
-
- experiment a command-line pretty-printer (interpreted)
- experiment.opt same as experiment (compiled)
- gtkInterface a gtk-based pretty-printer (interpreted)
- gtkInterface.opt a gtk-based pretty-printer (compiled)
-
-To use one of the previous pretty-printer the syntax is
-
- pretty_printer_name file1 ... filen
-
-where filei is an xml cic object
-
-Code files:
-
- cic.ml the internal definition of cic objects and terms
- getter.ml converts uris to filenames retrieving the correspondent file
- cache.ml a cache for cic objects (actually a simple hash-table)
- cicParser.ml a parser from xml to internal definition: top level
- cicParser2.ml a parser from xml to internal definition: objects level
- cicParser3.ml a parser from xml to internal definition: terms level
- cicPp.ml a pretty-printer for the internal definition of cic objects
- experiment.ml a textual interface to cicPp
- gtkInterface.ml a gtk interface to cicPp
-
-Interface files:
- cache.mli getter.mli cicPp.mli cicParser.mli cicParser2.mli cicParser3.mli
-
-Other files:
-
- Makefile the targets are "all" "opt" "depend" "clean"
- .depend dependencies file used by make
- examples symbolic link to the root of the exported library
+++ /dev/null
-prima di UriManager.ml:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m50.266s
- user 0m44.160s
- sys 0m0.700s
-
-dopo UriManager.ml, ma prima di passare da = a ==:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m51.388s
- user 0m45.430s
- sys 0m0.530s
-
-dopo UriManager.ml e popo il passaggio (parziale?) da = a ==:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m50.767s
- user 0m44.750s
- sys 0m0.510s
-
-dopo il passaggio alla cache che usa ancora =:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m50.646s
- user 0m44.680s
- sys 0m0.530s
-
-dopo il passaggio alla cache con utilizzo di ==:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m50.861s
- user 0m45.030s
- sys 0m0.500s
-
-con funzione di hashing costante ;-(
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m51.442s
- user 0m45.440s
- sys 0m0.530s
-
-con implementazione isomorfa all'albero delle uri:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m54.081s
- user 0m47.590s
- sys 0m0.780s
-
-con implementazione con doppio RB-albero:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m52.504s
- user 0m46.120s
- sys 0m0.720s
-
-con implementazione semplice, gestite anche le uri delle var:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m51.850s
- user 0m46.060s
- sys 0m0.530s
-
-con implementazione con doppio RB-albero, gestite anche le uri delle var:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m51.495s
- user 0m45.660s
- sys 0m0.540s
-
-=========================================================
-
-con implementazione con doppio RB-albero, gestite anche le uri delle var
-e spostata nell'uri-manager is_prefix:
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m50.465s
- user 0m45.710s
- sys 0m0.590s
-
-con implementazione semplice (e tutto il resto):
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m49.710s
- user 0m43.850s
- sys 0m0.500s
-
-con implementazione banale (e tutto il resto):
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m49.289s
- user 0m44.840s
- sys 0m0.570s
-
-con implementazione banale SOLO PARSING ;-)
-
- [ABCI]* (terza passata, uguale alla seconda):
-
- real 0m48.395s
- user 0m42.830s
- sys 0m0.850s
-
-=========================================================
-
-con implementazione con doppio RB-albero, gestite anche le uri delle var
-e spostata nell'uri-manager is_prefix:
-
- REAL (prima passata, dopo un sync):
-
- real 10m58.033s
- user 10m37.690s
- sys 0m2.570s
-
-con implementazione semplice (e tutto il resto):
-
- REAL (prima passata, dopo un sync):
-
- real 10m31.035s
- user 10m9.350s
- sys 0m3.230s
-
-con implementazione banale (e tutto il resto):
-
- REAL (prima passata, dopo un sync):
-
- real 11m4.026s
- user 10m43.930s
- sys 0m3.070s
-
-=================================================
-
-con implementazione banale, SOLO PARSING di tutto:
-
- real 6m54.336s
- user 6m13.850s
- sys 0m6.580s
-
-con implementazione banale, anche typechecking di tutto:
-
- real 20m17.739s
- user 19m14.740s
- sys 0m8.550s
-
-con implementazione semplice, anche typechecking di tutto:
-
- real 19m36.079s
- user 18m36.480s
- sys 0m7.760s
-
-con implementazione con doppio RB-albero, anche typechecking di tutto:
-
- real 17m30.423s
- user 16m30.840s
- sys 0m6.170s
-
-***************************************************************************
- APPLICATA EURISTICA
-***************************************************************************
-
-con implementazione con doppio RB-albero, anche typechecking di tutto
-(universita') ????????:
-
-real 5m37.805s
-user 5m1.640s
-sys 0m5.010s
-
-tutto (ma a casa):
-
-real 7m36.663s
-user 6m52.220s
-sys 0m5.860s
-
-
-solo REAL:
-
-real 2m52.860s
-user 2m41.050s
-sys 0m2.820s
-
-==========================================================================
-
-tutto (ma a casa) dopo eliminazione buri:
-
-real 7m52.773s
-user 6m52.110s
-sys 0m7.130s
-
-"solo parsing" di tutto dopo eliminazione buri:
-
-real 7m8.379s
-user 6m15.250s
-sys 0m6.700s
-
-===========================================================================
-
-TUTTO ALL'UNIVERSITA' CON EURISTICA MA SENZA UNIVERSI:
-
-real 5m47.920s
-user 5m14.600s
-sys 0m5.010s
-
+++ /dev/null
--P directory di destinazione
--q no output (quiet mode)
--c continue retrieving (no uri.1, uri.2, ...)
+++ /dev/null
-(*CSC codice cut & paste da cicPp e xmlcommand *)
-
-exception ImpossiblePossible;;
-exception NotImplemented;;
-exception BinderNotSpecified;;
-
-let dtdname = "http://localhost:8081/getdtd?url=annotations.dtd";;
-
-(*CSC ottimizzazione: al posto di curi cdepth (vedi codice) *)
-let print_term =
- let rec aux =
- let module C = Cic in
- let module X = Xml in
- let module U = UriManager in
- function
- C.ARel (id,ann,_,_) ->
- (match !ann with
- None -> [<>]
- | Some ann -> (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- )
- | C.AVar (id,ann,_) ->
- (match !ann with
- None -> [<>]
- | Some ann -> (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- )
- | C.AMeta (id,ann,_) ->
- (match !ann with
- None -> [<>]
- | Some ann -> (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- )
- | C.ASort (id,ann,_) ->
- (match !ann with
- None -> [<>]
- | Some ann -> (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- )
- | C.AImplicit _ -> raise NotImplemented
- | C.AProd (id,ann,_,s,t) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- ) ;
- aux s ;
- aux t
- >]
- | C.ACast (id,ann,v,t) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- ) ;
- aux v ;
- aux t
- >]
- | C.ALambda (id,ann,_,s,t) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- ) ;
- aux s ;
- aux t
- >]
- | C.AAppl (id,ann,li) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- ) ;
- List.fold_right (fun x i -> [< (aux x) ; i >]) li [<>]
- >]
- | C.AConst (id,ann,_,_) ->
- (match !ann with
- None -> [<>]
- | Some ann -> (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- )
- | C.AAbst (id,ann,_) -> raise NotImplemented
- | C.AMutInd (id,ann,_,_,_) ->
- (match !ann with
- None -> [<>]
- | Some ann -> (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- )
- | C.AMutConstruct (id,ann,_,_,_,_) ->
- (match !ann with
- None -> [<>]
- | Some ann -> (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- )
- | C.AMutCase (id,ann,_,_,_,ty,te,patterns) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- ) ;
- aux ty ;
- aux te ;
- List.fold_right
- (fun x i -> [< aux x ; i>])
- patterns [<>]
- >]
- | C.AFix (id, ann, _, funs) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- ) ;
- List.fold_right
- (fun (_,_,ti,bi) i -> [< aux ti ; aux bi ; i >]) funs [<>]
- >]
- | C.ACoFix (id, ann,no,funs) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- (X.xml_nempty "Annotation" ["of", id] (X.xml_cdata ann))
- ) ;
- List.fold_right
- (fun (_,ti,bi) i -> [< aux ti ; aux bi ; i >]) funs [<>]
- >]
- in
- aux
-;;
-
-let print_mutual_inductive_type (_,_,arity,constructors) =
- [< print_term arity ;
- List.fold_right
- (fun (name,ty,_) i -> [< print_term ty ; i >]) constructors [<>]
- >]
-;;
-
-let target_uri_of_annotation_uri uri =
- Str.replace_first (Str.regexp "\.ann$") "" (UriManager.string_of_uri uri)
-;;
-
-let pp_annotation obj curi =
- let module C = Cic in
- let module X = Xml in
- [< X.xml_cdata "<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>\n" ;
- X.xml_cdata ("<!DOCTYPE Annotations SYSTEM \"" ^ dtdname ^ "\">\n\n") ;
- X.xml_nempty "Annotations" ["of", target_uri_of_annotation_uri curi]
- begin
- match obj with
- C.ADefinition (xid, ann, _, te, ty, _) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- X.xml_nempty "Annotation" ["of", xid] (X.xml_cdata ann)
- ) ;
- print_term te ;
- print_term ty
- >]
- | C.AAxiom (xid, ann, _, ty, _) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- X.xml_nempty "Annotation" ["of", xid] (X.xml_cdata ann)
- ) ;
- print_term ty
- >]
- | C.AVariable (xid, ann, _, ty) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- X.xml_nempty "Annotation" ["of", xid] (X.xml_cdata ann)
- ) ;
- print_term ty
- >]
- | C.ACurrentProof (xid, ann, _, conjs, bo, ty) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- X.xml_nempty "Annotation" ["of", xid] (X.xml_cdata ann)
- ) ;
- List.fold_right
- (fun (_,t) i -> [< print_term t ; i >])
- conjs [<>] ;
- print_term bo ;
- print_term ty
- >]
- | C.AInductiveDefinition (xid, ann, tys, params, paramsno) ->
- [< (match !ann with
- None -> [<>]
- | Some ann ->
- X.xml_nempty "Annotation" ["of", xid] (X.xml_cdata ann)
- ) ;
- List.fold_right
- (fun x i -> [< print_mutual_inductive_type x ; i >])
- tys [< >]
- >]
- end
- >]
-;;
+++ /dev/null
-exception Warnings;;
-
-class warner =
- object
- method warn w =
- print_endline ("WARNING: " ^ w) ;
- (raise Warnings : unit)
- end
-;;
-
-exception EmptyUri;;
-
-let annotate filename ids_to_targets =
- let module Y = Pxp_yacc in
- try
- let d =
- let config = {Y.default_config with Y.warner = new warner} in
- Y.parse_document_entity config
-(*PXP (Y.ExtID (Pxp_types.System filename,
- new Pxp_reader.resolve_as_file ~url_of_id ()))
-*) (PxpUriResolver.from_file filename)
- Y.default_spec
-
- in
- AnnotationParser2.annotate ids_to_targets d#root
- with
- e ->
- print_endline (Pxp_types.string_of_exn e) ;
- raise e
-;;
+++ /dev/null
-exception IllFormedXml of int;;
-
-(* Utility functions that transform a Pxp attribute into something useful *)
-
-let string_of_attr a =
- let module T = Pxp_types in
- match a with
- T.Value s -> s
- | _ -> raise (IllFormedXml 0)
-;;
-
-exception DontKnowWhatToDo;;
-
-let rec string_of_annotations n =
- let module D = Pxp_document in
- let module T = Pxp_types in
- match n#node_type with
- D.T_element s ->
- "<" ^ s ^
- List.fold_right
- (fun att i ->
- match n#attribute att with
- T.Value s -> " " ^ att ^ "=\"" ^ s ^ "\"" ^ i
- | T.Implied_value -> i
- | T.Valuelist l -> " " ^ att ^ "=\"" ^ String.concat " " l ^ "\"" ^ i
- ) (n#attribute_names) "" ^
- (match n#sub_nodes with
- [] -> "/>"
- | l ->
- ">" ^
- String.concat "" (List.map string_of_annotations l) ^
- "</" ^ s ^ ">"
- )
- | D.T_data -> n#data
- | _ -> raise DontKnowWhatToDo
-;;
-
-let get_annotation n =
- String.concat "" (List.map string_of_annotations (n#sub_nodes))
-;;
-
-let annotate_object ann obj =
- let module C = Cic in
- let rann =
- match obj with
- C.ADefinition (_, rann, _, _, _, _) -> rann
- | C.AAxiom (_, rann, _, _, _) -> rann
- | C.AVariable (_, rann, _, _) -> rann
- | C.ACurrentProof (_, rann, _, _, _, _) -> rann
- | C.AInductiveDefinition (_, rann, _, _, _) -> rann
- in
- rann := Some ann
-;;
-
-let annotate_term ann term =
- let module C = Cic in
- let rann =
- match term with
- C.ARel (_, rann, _, _) -> rann
- | C.AVar (_, rann, _) -> rann
- | C.AMeta (_, rann, _) -> rann
- | C.ASort (_, rann, _) -> rann
- | C.AImplicit (_, rann) -> rann
- | C.ACast (_, rann, _, _) -> rann
- | C.AProd (_, rann, _, _, _) -> rann
- | C.ALambda (_, rann, _, _, _) -> rann
- | C.AAppl (_, rann, _) -> rann
- | C.AConst (_, rann, _, _) -> rann
- | C.AAbst (_, rann, _) -> rann
- | C.AMutInd (_, rann, _, _, _) -> rann
- | C.AMutConstruct (_, rann, _, _, _, _) -> rann
- | C.AMutCase (_, rann, _, _, _, _, _, _) -> rann
- | C.AFix (_, rann, _, _) -> rann
- | C.ACoFix (_, rann, _, _) -> rann
- in
- rann := Some ann
-;;
-
-let annotate ids_to_targets n =
- let module D = Pxp_document in
- let module C = Cic in
- let annotate_elem n =
- let ntype = n # node_type in
- match ntype with
- D.T_element "Annotation" ->
- let of_uri = string_of_attr (n # attribute "of") in
- begin
- try
- match Hashtbl.find ids_to_targets of_uri with
- C.Object o -> annotate_object (get_annotation n) o
- | C.Term t -> annotate_term (get_annotation n) t
- with
- Not_found -> assert false
- end
- | D.T_element _ | D.T_data ->
- raise (IllFormedXml 1)
- | _ -> raise DontKnowWhatToDo
- in
- match n # node_type with
- D.T_element "Annotations" ->
- List.iter annotate_elem (n # sub_nodes)
- | _ -> raise (IllFormedXml 2)
-;;
+++ /dev/null
-#! /bin/sh
-
-export PATH=/home/cadet/sacerdot/jdk118/bin:$PATH
-
-export CLASSPATH=/home/cadet/sacerdot/xalan-j_1_2/xalan.jar:/home/cadet/sacerdot/xalan-j_1_2/xerces.jar:.
-
-#export CLASSPATH=$CLASSPATH:/home/lpadovan/helm/java/xalan_1_1/xalan.jar
-#export CLASSPATH=$CLASSPATH:/home/lpadovan/helm/java/xalan_1_1/xerces.jar
-#export CLASSPATH=$CLASSPATH:/home/lpadovan/helm/java/saxon-5.3.2/saxon.jar
-
-# Per (my)Coq 6.3.0
-#export LD_LIBRARY_PATH=/home/lpadovan/helm/usr/lib/:$LD_LIBRARY_PATH
-export LD_LIBRARY_PATH=/usr/local/lib/gtkmathview:$LD_LIBRARY_PATH
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 14/06/2000 *)
-(* *)
-(* This module defines the internal representation of the objects (variables, *)
-(* blocks of (co)inductive definitions and constants) and the terms of cic *)
-(* *)
-(******************************************************************************)
-
-(* STUFF TO MANAGE IDENTIFIERS *)
-type id = string (* the abstract type of the (annotated) node identifiers *)
-type anntarget =
- Object of annobj
- | Term of annterm
-
-(* INTERNAL REPRESENTATION OF CIC OBJECTS AND TERMS *)
-and sort =
- Prop
- | Set
- | Type
-and name =
- Name of string
- | Anonimous
-and term =
- Rel of int (* DeBrujin index *)
- | Var of UriManager.uri (* uri *)
- | Meta of int (* numeric id *)
- | Sort of sort (* sort *)
- | Implicit (* *)
- | Cast of term * term (* value, type *)
- | Prod of name * term * term (* binder, source, target *)
- | Lambda of name * term * term (* binder, source, target *)
- | Appl of term list (* arguments *)
- | Const of UriManager.uri * int (* uri, number of cookings*)
- | Abst of UriManager.uri (* uri *)
- | MutInd of UriManager.uri * int * int (* uri, cookingsno, typeno*)
- | MutConstruct of UriManager.uri * int * (* uri, cookingsno, *)
- int * int (* typeno, consno *)
- (*CSC: serve cookingsno?*)
- | MutCase of UriManager.uri * int * (* ind. uri, cookingsno, *)
- int * (* ind. typeno, *)
- term * term * (* outtype, ind. term *)
- term list (* patterns *)
- | Fix of int * inductiveFun list (* funno, functions *)
- | CoFix of int * coInductiveFun list (* funno, functions *)
-and obj =
- Definition of string * term * term * (* id, value, type, *)
- (int * UriManager.uri list) list (* parameters *)
- | Axiom of string * term *
- (int * UriManager.uri list) list (* id, type, parameters *)
- | Variable of string * term (* name, type *)
- | CurrentProof of string * (int * term) list * (* name, conjectures, *)
- term * term (* value, type *)
- | InductiveDefinition of inductiveType list * (* inductive types, *)
- (int * UriManager.uri list) list * int (* parameters, n ind. pars *)
-and inductiveType =
- string * bool * term * (* typename, inductive, arity *)
- constructor list (* constructors *)
-and constructor =
- string * term * bool list option ref (* id, type, really recursive *)
-and inductiveFun =
- string * int * term * term (* name, ind. index, type, body *)
-and coInductiveFun =
- string * term * term (* name, type, body *)
-
-and annterm =
- ARel of id * annotation option ref *
- int * string option (* DeBrujin index, binder *)
- | AVar of id * annotation option ref *
- UriManager.uri (* uri *)
- | AMeta of id * annotation option ref * int (* numeric id *)
- | ASort of id * annotation option ref * sort (* sort *)
- | AImplicit of id * annotation option ref (* *)
- | ACast of id * annotation option ref *
- annterm * annterm (* value, type *)
- | AProd of id * annotation option ref *
- name * annterm * annterm (* binder, source, target *)
- | ALambda of id * annotation option ref *
- name * annterm * annterm (* binder, source, target *)
- | AAppl of id * annotation option ref *
- annterm list (* arguments *)
- | AConst of id * annotation option ref *
- UriManager.uri * int (* uri, number of cookings*)
- | AAbst of id * annotation option ref *
- UriManager.uri (* uri *)
- | AMutInd of id * annotation option ref *
- UriManager.uri * int * int (* uri, cookingsno, typeno*)
- | AMutConstruct of id * annotation option ref *
- UriManager.uri * int * (* uri, cookingsno, *)
- int * int (* typeno, consno *)
- (*CSC: serve cookingsno?*)
- | AMutCase of id * annotation option ref *
- UriManager.uri * int * (* ind. uri, cookingsno *)
- int * (* ind. typeno, *)
- annterm * annterm * (* outtype, ind. term *)
- annterm list (* patterns *)
- | AFix of id * annotation option ref *
- int * anninductiveFun list (* funno, functions *)
- | ACoFix of id * annotation option ref *
- int * anncoInductiveFun list (* funno, functions *)
-and annobj =
- ADefinition of id * annotation option ref *
- string * (* id, *)
- annterm * annterm * (* value, type, *)
- (int * UriManager.uri list) list exactness (* parameters *)
- | AAxiom of id * annotation option ref *
- string * annterm * (* id, type *)
- (int * UriManager.uri list) list (* parameters *)
- | AVariable of id * annotation option ref *
- string * annterm (* name, type *)
- | ACurrentProof of id * annotation option ref *
- string * (int * annterm) list * (* name, conjectures, *)
- annterm * annterm (* value, type *)
- | AInductiveDefinition of id *
- annotation option ref * anninductiveType list * (* inductive types , *)
- (int * UriManager.uri list) list * int (* parameters,n ind. pars*)
-and anninductiveType =
- string * bool * annterm * (* typename, inductive, arity *)
- annconstructor list (* constructors *)
-and annconstructor =
- string * annterm * bool list option ref (* id, type, really recursive *)
-and anninductiveFun =
- string * int * annterm * annterm (* name, ind. index, type, body *)
-and anncoInductiveFun =
- string * annterm * annterm (* name, type, body *)
-and annotation =
- string
-and 'a exactness =
- Possible of 'a (* an approximation to something *)
- | Actual of 'a (* something *)
-;;
+++ /dev/null
-(*CSC codice cut & paste da cicPp e xmlcommand *)
-
-exception ImpossiblePossible;;
-exception NotImplemented;;
-exception BinderNotSpecified;;
-
-let dtdname = "http://localhost:8081/getdtd?url=cic.dtd";;
-
-(*CSC ottimizzazione: al posto di curi cdepth (vedi codice) *)
-let print_term curi =
- let rec aux =
- let module C = Cic in
- let module X = Xml in
- let module U = UriManager in
- function
- C.ARel (id,_,n,Some b) ->
- X.xml_empty "REL" ["value",(string_of_int n);"binder",b;"id",id]
- | C.ARel _ -> raise BinderNotSpecified
- | C.AVar (id,_,uri) ->
- let vdepth = U.depth_of_uri uri
- and cdepth = U.depth_of_uri curi in
- X.xml_empty "VAR"
- ["relUri",(string_of_int (cdepth - vdepth)) ^ "," ^
- (U.name_of_uri uri) ;
- "id",id]
- | C.AMeta (id,_,n) ->
- X.xml_empty "META" ["no",(string_of_int n) ; "id",id]
- | C.ASort (id,_,s) ->
- let string_of_sort =
- function
- C.Prop -> "Prop"
- | C.Set -> "Set"
- | C.Type -> "Type"
- in
- X.xml_empty "SORT" ["value",(string_of_sort s) ; "id",id]
- | C.AImplicit _ -> raise NotImplemented
- | C.AProd (id,_,C.Anonimous,s,t) ->
- X.xml_nempty "PROD" ["id",id]
- [< X.xml_nempty "source" [] (aux s) ;
- X.xml_nempty "target" [] (aux t)
- >]
- | C.AProd (xid,_,C.Name id,s,t) ->
- X.xml_nempty "PROD" ["id",xid]
- [< X.xml_nempty "source" [] (aux s) ;
- X.xml_nempty "target" ["binder",id] (aux t)
- >]
- | C.ACast (id,_,v,t) ->
- X.xml_nempty "CAST" ["id",id]
- [< X.xml_nempty "term" [] (aux v) ;
- X.xml_nempty "type" [] (aux t)
- >]
- | C.ALambda (id,_,C.Anonimous,s,t) ->
- X.xml_nempty "LAMBDA" ["id",id]
- [< X.xml_nempty "source" [] (aux s) ;
- X.xml_nempty "target" [] (aux t)
- >]
- | C.ALambda (xid,_,C.Name id,s,t) ->
- X.xml_nempty "LAMBDA" ["id",xid]
- [< X.xml_nempty "source" [] (aux s) ;
- X.xml_nempty "target" ["binder",id] (aux t)
- >]
- | C.AAppl (id,_,li) ->
- X.xml_nempty "APPLY" ["id",id]
- [< (List.fold_right (fun x i -> [< (aux x) ; i >]) li [<>])
- >]
- | C.AConst (id,_,uri,_) ->
- X.xml_empty "CONST" ["uri", (U.string_of_uri uri) ; "id",id]
- | C.AAbst (id,_,uri) -> raise NotImplemented
- | C.AMutInd (id,_,uri,_,i) ->
- X.xml_empty "MUTIND"
- ["uri", (U.string_of_uri uri) ;
- "noType",(string_of_int i) ;
- "id",id]
- | C.AMutConstruct (id,_,uri,_,i,j) ->
- X.xml_empty "MUTCONSTRUCT"
- ["uri", (U.string_of_uri uri) ;
- "noType",(string_of_int i) ; "noConstr",(string_of_int j) ;
- "id",id]
- | C.AMutCase (id,_,uri,_,typeno,ty,te,patterns) ->
- X.xml_nempty "MUTCASE"
- ["uriType",(U.string_of_uri uri) ;
- "noType", (string_of_int typeno) ;
- "id", id]
- [< X.xml_nempty "patternsType" [] [< (aux ty) >] ;
- X.xml_nempty "inductiveTerm" [] [< (aux te) >] ;
- List.fold_right
- (fun x i -> [< X.xml_nempty "pattern" [] [< aux x >] ; i>])
- patterns [<>]
- >]
- | C.AFix (id, _, no, funs) ->
- X.xml_nempty "FIX" ["noFun", (string_of_int no) ; "id",id]
- [< List.fold_right
- (fun (fi,ai,ti,bi) i ->
- [< X.xml_nempty "FixFunction"
- ["name", fi; "recIndex", (string_of_int ai)]
- [< X.xml_nempty "type" [] [< aux ti >] ;
- X.xml_nempty "body" [] [< aux bi >]
- >] ;
- i
- >]
- ) funs [<>]
- >]
- | C.ACoFix (id,_,no,funs) ->
- X.xml_nempty "COFIX" ["noFun", (string_of_int no) ; "id",id]
- [< List.fold_right
- (fun (fi,ti,bi) i ->
- [< X.xml_nempty "CofixFunction" ["name", fi]
- [< X.xml_nempty "type" [] [< aux ti >] ;
- X.xml_nempty "body" [] [< aux bi >]
- >] ;
- i
- >]
- ) funs [<>]
- >]
- in
- aux
-;;
-
-let encode params =
- List.fold_right
- (fun (n,l) i ->
- match l with
- [] -> i
- | _ ->
- string_of_int n ^ ": " ^
- String.concat " " (List.map UriManager.name_of_uri l) ^
- i
- ) params ""
-;;
-
-let print_mutual_inductive_type curi (typename,inductive,arity,constructors) =
- let module C = Cic in
- let module X = Xml in
- [< X.xml_nempty "InductiveType"
- ["name",typename ;
- "inductive",(string_of_bool inductive)
- ]
- [< X.xml_nempty "arity" [] (print_term curi arity) ;
- (List.fold_right
- (fun (name,ty,_) i ->
- [< X.xml_nempty "Constructor" ["name",name]
- (print_term curi ty) ;
- i
- >])
- constructors
- [<>]
- )
- >]
- >]
-;;
-
-let pp obj curi =
- let module C = Cic in
- let module X = Xml in
- match obj with
- C.ADefinition (xid, _, id, te, ty, params) ->
- [< X.xml_cdata "<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>\n" ;
- X.xml_cdata ("<!DOCTYPE Definition SYSTEM \"" ^ dtdname ^ "\">\n\n") ;
- X.xml_nempty "Definition"
- (["name", id ; "id",xid] @
- match params with
- C.Possible _ -> raise ImpossiblePossible
- (*CSC params are kept in inverted order in the internal *)
- (* representation (the order of application) *)
- | C.Actual fv' -> ["params",(encode (List.rev fv'))])
- [< X.xml_nempty "body" [] (print_term curi te) ;
- X.xml_nempty "type" [] (print_term curi ty) >]
- >]
- | C.AAxiom (xid, _, id, ty, params) ->
- [< X.xml_cdata "<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>\n" ;
- X.xml_cdata ("<!DOCTYPE Axiom SYSTEM \"" ^ dtdname ^ "\">\n\n") ;
- X.xml_nempty "Axiom"
- (*CSC params are kept in inverted order in the internal *)
- (* representation (the order of application) *)
- ["name",id ; "params",(encode (List.rev params)) ; "id",xid]
- [< X.xml_nempty "type" [] (print_term curi ty) >]
- >]
- | C.AVariable (xid, _, name, ty) ->
- [< X.xml_cdata "<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>\n" ;
- X.xml_cdata ("<!DOCTYPE Variable SYSTEM \"" ^ dtdname ^ "\">\n\n") ;
- X.xml_nempty "Variable" ["name",name ; "id",xid]
- [< X.xml_nempty "type" [] (print_term curi ty) >]
- >]
- | C.ACurrentProof (xid, _, name, conjs, bo, ty) ->
- [< X.xml_cdata "<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>\n" ;
- X.xml_cdata ("<!DOCTYPE CurrentProof SYSTEM \"" ^ dtdname ^ "\">\n\n");
- X.xml_nempty "CurrentProof" ["name",name ; "id",xid]
- [< List.fold_right
- (fun (j,t) i ->
- [< X.xml_nempty "Conjecture" ["no",(string_of_int j)]
- [< print_term curi t >] ; i >])
- conjs [<>] ;
- X.xml_nempty "body" [] [< print_term curi bo >] ;
- X.xml_nempty "type" [] [< print_term curi ty >]
- >]
- >]
- | C.AInductiveDefinition (xid, _, tys, params, paramsno) ->
- let names =
- List.map
- (fun (typename,_,_,_) -> typename)
- tys
- in
- [< X.xml_cdata "<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>\n" ;
- X.xml_cdata ("<!DOCTYPE InductiveDefinition SYSTEM \"" ^
- dtdname ^ "\">\n\n") ;
- X.xml_nempty "InductiveDefinition"
- (*CSC params are kept in inverted order in the internal *)
- (* representation (the order of application) *)
- ["noParams",string_of_int paramsno ;
- "params",(encode (List.rev params)) ;
- "id",xid]
- [< List.fold_right
- (fun x i -> [< print_mutual_inductive_type curi x ; i >])
- tys [< >]
- >]
- >]
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 14/06/2000 *)
-(* *)
-(* *)
-(******************************************************************************)
-
-let deactivate_hints_from annotation_window n =
- let annotation_hints = annotation_window#annotation_hints in
- for i = n to Array.length annotation_hints - 1 do
- annotation_hints.(i)#misc#hide ()
- done
-;;
-
-(* CSC: orripilante *)
-(* the list of the signal ids *)
-let sig_ids = ref ([] : GtkSignal.id list);;
-
-let disconnect_hint annotation_window buttonno =
- match !sig_ids with
- id::ids ->
- annotation_window#annotation_hints.(buttonno)#misc#disconnect id ;
- sig_ids := ids
- | _ -> assert false
-;;
-
-(* link_hint annotation_window n label hint *)
-(* set the label of the nth hint button of annotation_window to label *)
-(* and the correspondent hint to hint *)
-let link_hint annotation_window buttonno label hint =
- let button = annotation_window#annotation_hints.(buttonno) in
- sig_ids :=
- (button#connect#clicked
- (fun () -> (annotation_window#annotation : GEdit.text)#insert hint)
- ) :: !sig_ids ;
- button#misc#show () ;
- match button#children with
- [labelw] -> (GMisc.label_cast labelw)#set_text label
- | _ -> assert false
-;;
-
-exception TooManyHints;;
-
-let link_hints annotation_window a =
- if Array.length a > Array.length annotation_window#annotation_hints then
- raise TooManyHints ;
- for i = List.length !sig_ids - 1 downto 0 do
- disconnect_hint annotation_window i
- done ;
- Array.iteri
- (fun i (label,hint) -> link_hint annotation_window i label hint) a ;
- deactivate_hints_from annotation_window (Array.length a)
-;;
-
-let list_mapi f =
- let rec aux n =
- function
- [] -> []
- | he::tl -> (f n he)::(aux (n + 1) tl)
- in
- aux 0
-;;
-
-let get_id annterm =
- let module C = Cic in
- match annterm with
- C.ARel (id,_,_,_) -> id
- | C.AVar (id,_,_) -> id
- | C.AMeta (id,_,_) -> id
- | C.ASort (id,_,_) -> id
- | C.AImplicit (id,_) -> id
- | C.ACast (id,_,_,_) -> id
- | C.AProd (id,_,_,_,_) -> id
- | C.ALambda (id,_,_,_,_) -> id
- | C.AAppl (id,_,_) -> id
- | C.AConst (id,_,_,_) -> id
- | C.AAbst (id,_,_) -> id
- | C.AMutInd (id,_,_,_,_) -> id
- | C.AMutConstruct (id,_,_,_,_,_)-> id
- | C.AMutCase (id,_,_,_,_,_,_,_) -> id
- | C.AFix (id,_,_,_) -> id
- | C.ACoFix (id,_,_,_) -> id
-;;
-
-let create_hint_from_term annotation_window annterm =
- let module C = Cic in
- match annterm with
- C.ARel (id,_,_,_) ->
- link_hints annotation_window
- [| "Binder", "<attribute name = 'binder' id = '" ^ id ^ "'/>" |]
- | C.AVar (id,_,_) ->
- link_hints annotation_window
- [| "relURI???", "<attribute name = 'relUri' id = '" ^ id ^ "'/>" |]
- | C.AMeta (id,_,_) ->
- link_hints annotation_window
- [| "Number", "<attribute name = 'no' id = '" ^ id ^ "'/>" |]
- | C.ASort (id,_,_) ->
- link_hints annotation_window
- [| "Value", "<attribute name = 'value' id = '" ^ id ^ "'/>" |]
- | C.AImplicit (id,_) ->
- link_hints annotation_window [| |]
- | C.ACast (id,_,bo,ty) ->
- let boid = get_id bo
- and tyid = get_id ty in
- link_hints annotation_window
- [| "Body", "<node id = '" ^ boid ^ "'/>" ;
- "Type", "<node id = '" ^ tyid ^ "'/>"
- |]
- | C.AProd (id,_,_,ty,bo) ->
- let boid = get_id bo
- and tyid = get_id ty in
- link_hints annotation_window
- [| "Binder",
- "<attribute child = '2' name = 'binder' id = '" ^ id ^ "'/>" ;
- "Body", "<node id = '" ^ boid ^ "'/>" ;
- "Type", "<node id = '" ^ tyid ^ "'/>"
- |]
- | C.ALambda (id,_,_,ty,bo) ->
- let boid = get_id bo
- and tyid = get_id ty in
- link_hints annotation_window
- [| "Binder",
- "<attribute child = '2' name = 'binder' id = '" ^ id ^ "'/>" ;
- "Body", "<node id = '" ^ boid ^ "'/>" ;
- "Type", "<node id = '" ^ tyid ^ "'/>"
- |]
- | C.AAppl (id,_,args) ->
- let argsid =
- Array.mapi
- (fun i te -> "Argument " ^ string_of_int i, "<node id ='" ^
- get_id te ^ "'/>")
- (Array.of_list args)
- in
- link_hints annotation_window argsid
- | C.AConst (id,_,_,_) ->
- link_hints annotation_window
- [| "Uri???", "<attribute name = 'uri' id = '" ^ id ^ "'/>" |]
- | C.AAbst (id,_,_) ->
- link_hints annotation_window
- [| "Uri???", "<attribute name = 'uri' id = '" ^ id ^ "'/>" |]
- | C.AMutInd (id,_,_,_,_) ->
- link_hints annotation_window
- [| "Uri???", "<attribute name = 'uri' id = '" ^ id ^ "'/>" |]
- | C.AMutConstruct (id,_,_,_,_,_) ->
- link_hints annotation_window
- [| "Uri???", "<attribute name = 'uri' id = '" ^ id ^ "'/>" |]
- | C.AMutCase (id,_,_,_,_,outty,te,pl) ->
- let outtyid = get_id outty
- and teid = get_id te
- and plid =
- Array.mapi
- (fun i te -> "Pattern " ^ string_of_int i, "<node id ='" ^
- get_id te ^ "'/>")
- (Array.of_list pl)
- in
- link_hints annotation_window
- (Array.append
- [| "Uri???", "<attribute name = 'uri' id = '" ^ id ^ "'/>" ;
- "Case Type", "<node id = '" ^ outtyid ^ "'/>" ;
- "Term", "<node id = '" ^ teid ^ "'/>" ;
- |]
- plid)
- | C.AFix (id,_,_,funl) ->
- let funtylid =
- Array.mapi
- (fun i (_,_,ty,_) ->
- "Type " ^ string_of_int i, "<node id ='" ^
- get_id ty ^ "'/>")
- (Array.of_list funl)
- and funbolid =
- Array.mapi
- (fun i (_,_,_,bo) ->
- "Body " ^ string_of_int i, "<node id ='" ^
- get_id bo ^ "'/>")
- (Array.of_list funl)
- and funnamel =
- Array.mapi
- (fun i (_,_,_,_) ->
- "Name " ^ string_of_int i, "<attribute id ='" ^ id ^
- "' name = 'name' child='" ^ string_of_int i ^ "'/>")
- (Array.of_list funl)
- and funrecindexl =
- Array.mapi
- (fun i (_,_,_,_) ->
- "Recursive Index??? " ^ string_of_int i, "<attribute id = '" ^ id ^
- "' name = 'recIndex' child='" ^ string_of_int i ^ "'/>")
- (Array.of_list funl)
- in
- link_hints annotation_window
- (Array.concat
- [ funtylid ;
- funbolid ;
- funnamel ;
- funrecindexl ;
- [| "NoFun???", "<attribute name = 'noFun' id = '" ^ id ^ "'/>" |]
- ]
- )
- | C.ACoFix (id,_,_,funl) ->
- let funtylid =
- Array.mapi
- (fun i (_,ty,_) ->
- "Type " ^ string_of_int i, "<node id ='" ^
- get_id ty ^ "'/>")
- (Array.of_list funl)
- and funbolid =
- Array.mapi
- (fun i (_,_,bo) ->
- "Body " ^ string_of_int i, "<node id ='" ^
- get_id bo ^ "'/>")
- (Array.of_list funl)
- and funnamel =
- Array.mapi
- (fun i (_,_,_) ->
- "Name " ^ string_of_int i, "<attribute id ='" ^ id ^
- "' name = 'name' child='" ^ string_of_int i ^ "'/>")
- (Array.of_list funl)
- in
- link_hints annotation_window
- (Array.concat
- [ funtylid ;
- funbolid ;
- funnamel ;
- [| "NoFun???", "<attribute name = 'noFun' id = '" ^ id ^ "'/>" |]
- ]
- )
-;;
-
-(*CSC: da riscrivere completamente eliminando il paciugo degli array - liste *)
-let create_hint_from_obj annotation_window annobj =
- let module C = Cic in
- match annobj with
- C.ADefinition (id,_,_,bo,ty,_) ->
- let boid = get_id bo
- and tyid = get_id ty in
- link_hints annotation_window
- [| "Name", "<attribute name = 'name' id = '" ^ id ^ "'/>" ;
- "Ingredients", "<attribute name = 'params' id = '" ^ id ^ "'/>" ;
- "Body", "<node id = '" ^ boid ^ "'/>" ;
- "Type", "<node id = '" ^ tyid ^ "'/>"
- |]
- | C.AAxiom (id,_,_,ty,_) ->
- let tyid = get_id ty in
- link_hints annotation_window
- [| "Name", "<attribute name = 'name' id = '" ^ id ^ "'/>" ;
- "Ingredients", "<attribute name = 'params' id = '" ^ id ^ "'/>" ;
- "Type", "<node id = '" ^ tyid ^ "'/>"
- |]
- | C.AVariable (id,_,_,ty) ->
- let tyid = get_id ty in
- link_hints annotation_window
- [| "Name", "<attribute name = 'name' id = '" ^ id ^ "'/>" ;
- "Type", "<node id = '" ^ tyid ^ "'/>"
- |]
- | C.ACurrentProof (id,_,_,conjs,bo,ty) ->
- let boid = get_id bo
- and tyid = get_id ty
- and conjsid = List.map (fun (_,te) -> get_id te) conjs in
- link_hints annotation_window
- (Array.append
- [| "Name", "<attribute name = 'name' id = '" ^ id ^ "'/>" ;
- "Ingredients", "<attribute name = 'params' id = '" ^ id ^ "'/>" ;
- "Body", "<node id = '" ^ boid ^ "'/>" ;
- "Type", "<node id = '" ^ tyid ^ "'/>"
- |]
- (Array.mapi
- (fun i id ->
- "Conjecture " ^ string_of_int i, "<node id = '" ^ id ^ "'/>"
- ) (Array.of_list conjsid)
- )
- )
- | C.AInductiveDefinition (id,_,itl,_,_) ->
- let itlids =
- List.map
- (fun (_,_,arity,cons) ->
- get_id arity,
- List.map (fun (_,ty,_) -> get_id ty) cons
- ) itl
- in
- link_hints annotation_window
- (Array.concat
- [
- [| "Ingredients","<attribute name = 'params' id = '" ^ id ^ "'/>" |];
- (Array.mapi
- (fun i _ ->
- "Type Name " ^ string_of_int i,
- "<attribute name = 'name' child = '" ^ string_of_int i ^
- "' id = '" ^ id ^ "'/>"
- ) (Array.of_list itlids)
- ) ;
- (Array.mapi
- (fun i (id,_) ->
- "Type " ^ string_of_int i, "<node id = '" ^ id ^ "'/>"
- ) (Array.of_list itlids)
- ) ;
- (Array.concat
- (list_mapi
- (fun i (_,consid) ->
- (Array.mapi
- (fun j _ ->
- "Constructor Name " ^ string_of_int i ^ " " ^ string_of_int j,
- "<attribute name = 'name' id = '" ^ id ^
- "' child = '" ^ string_of_int i ^ "' grandchild = '" ^
- string_of_int j ^ "'/>"
- ) (Array.of_list consid)
- ) ;
- ) itlids
- )
- ) ;
- (Array.concat
- (list_mapi
- (fun i (_,consid) ->
- (Array.mapi
- (fun j id ->
- "Constructor " ^ string_of_int i ^ " " ^ string_of_int j,
- "<node id = '" ^ id ^ "'/>"
- ) (Array.of_list consid)
- ) ;
- ) itlids
- )
- )
- ]
- )
-;;
-
-exception IdUnknown of string;;
-
-let create_hints annotation_window (annobj,ids_to_targets) xpath =
- try
- match Hashtbl.find ids_to_targets xpath with
- Cic.Object annobj -> create_hint_from_obj annotation_window annobj
- | Cic.Term annterm -> create_hint_from_term annotation_window annterm
- with
- Not_found -> raise (IdUnknown xpath)
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module implements a trival cache system (an hash-table) for cic *)
-(* objects. Uses the getter (getter.ml) and the parser (cicParser.ml) *)
-(* *)
-(******************************************************************************)
-
-let raise e = print_endline "***" ; flush stdout ; print_endline (Printexc.to_string e) ; flush stdout ; raise e;;
-
-(*CSC: forse i due seguenti tipi sono da unificare? *)
-type cooked_obj =
- Cooked of Cic.obj
- | Frozen of Cic.obj
- | Unchecked of Cic.obj
-type type_checked_obj =
- CheckedObj of Cic.obj (* cooked obj *)
- | UncheckedObj of Cic.obj (* uncooked obj *)
-;;
-
-exception NoFunctionProvided;;
-
-(* CSC: da sostituire con un (...) option ref *)
-let cook_obj = ref (fun obj uri -> raise NoFunctionProvided);;
-
-exception CircularDependency of string;;
-exception CouldNotUnfreeze of string;;
-exception Impossible;;
-exception UncookedObj;;
-
-module HashedType =
- struct
- type t = UriManager.uri * int (* uri, livello di cottura *)
- let equal (u1,n1) (u2,n2) = UriManager.eq u1 u2 && n1 = n2
- let hash = Hashtbl.hash
- end
-;;
-
-(* Hashtable that uses == instead of = for testing equality *)
-module HashTable = Hashtbl.Make(HashedType);;
-
-let hashtable = HashTable.create 271;;
-
-(* n is the number of time that the object must be cooked *)
-let get_obj_and_type_checking_info uri n =
- try
- HashTable.find hashtable (uri,n)
- with
- Not_found ->
- try
- match HashTable.find hashtable (uri,0) with
- Cooked _
- | Frozen _ -> raise Impossible
- | Unchecked _ as t -> t
- with
- Not_found ->
- let filename = Getter.get uri in
- let (annobj,_) = CicParser.term_of_xml filename uri false in
- let obj = Deannotate.deannotate_obj annobj in
- let output = Unchecked obj in
- HashTable.add hashtable (uri,0) output ;
- output
-;;
-
-(* DANGEROUS!!! *)
-(* USEFUL ONLY DURING THE FIXING OF THE FILES *)
-(* change_obj uri (Some newobj) *)
-(* maps uri to newobj in cache. *)
-(* change_obj uri None *)
-(* maps uri to a freeze dummy-object. *)
-let change_obj uri newobj =
- let newobj =
- match newobj with
- Some newobj' -> Unchecked newobj'
- | None -> Frozen (Cic.Variable ("frozen-dummy", Cic.Implicit))
- in
- HashTable.remove hashtable (uri,0) ;
- HashTable.add hashtable (uri,0) newobj
-;;
-
-let is_annotation_uri uri =
- Str.string_match (Str.regexp ".*\.ann$") (UriManager.string_of_uri uri) 0
-;;
-
-(* returns both the annotated and deannotated uncooked forms (plus the *)
-(* map from ids to annotation targets) *)
-let get_annobj_and_type_checking_info uri =
- let filename = Getter.get uri in
- match CicParser.term_of_xml filename uri true with
- (_, None) -> raise Impossible
- | (annobj, Some ids_to_targets) ->
- (* If uri is the uri of an annotation, let's use the annotation file *)
- if is_annotation_uri uri then
- AnnotationParser.annotate (Getter.get_ann uri) ids_to_targets ;
- try
- (annobj, ids_to_targets, HashTable.find hashtable (uri,0))
- with
- Not_found ->
- let obj = Deannotate.deannotate_obj annobj in
- let output = Unchecked obj in
- HashTable.add hashtable (uri,0) output ;
- (annobj, ids_to_targets, output)
-;;
-
-
-(* get_obj uri *)
-(* returns the cic object whose uri is uri. If the term is not just in cache, *)
-(* then it is parsed via CicParser.term_of_xml from the file whose name is *)
-(* the result of Getter.get uri *)
-let get_obj uri =
- match get_obj_and_type_checking_info uri 0 with
- Unchecked obj -> obj
- | Frozen obj -> obj
- | Cooked obj -> obj
-;;
-
-(* get_annobj uri *)
-(* returns the cic object whose uri is uri either in annotated and *)
-(* deannotated form. The term is put into the cache if it's not there yet. *)
-let get_annobj uri =
- let (ann, ids_to_targets, deann) = get_annobj_and_type_checking_info uri in
- let deannobj =
- match deann with
- Unchecked obj -> obj
- | Frozen _ -> raise (CircularDependency (UriManager.string_of_uri uri))
- | Cooked obj -> obj
- in
- (ann, ids_to_targets, deannobj)
-;;
-
-(*CSC Commento falso *)
-(* get_obj uri *)
-(* returns the cooked cic object whose uri is uri. The term must be present *)
-(* and cooked in cache *)
-let rec get_cooked_obj uri cookingsno =
- match get_obj_and_type_checking_info uri cookingsno with
- Unchecked _
- | Frozen _ -> raise UncookedObj
- | Cooked obj -> obj
-;;
-
-(* is_type_checked uri *)
-(* CSC: commento falso ed obsoleto *)
-(* returns true if the term has been type-checked *)
-(* otherwise it returns false and freeze the term for type-checking *)
-(* set_type_checking_info must be called to unfreeze the term *)
-let is_type_checked uri cookingsno =
- match get_obj_and_type_checking_info uri cookingsno with
- Cooked obj -> CheckedObj obj
- | Unchecked obj ->
- HashTable.remove hashtable (uri,0) ;
- HashTable.add hashtable (uri,0) (Frozen obj) ;
- UncheckedObj obj
- | Frozen _ -> raise (CircularDependency (UriManager.string_of_uri uri))
-;;
-
-(* set_type_checking_info uri *)
-(* must be called once the type-checking of uri is finished *)
-(* The object whose uri is uri is unfreezed *)
-let set_type_checking_info uri =
- match HashTable.find hashtable (uri,0) with
- Frozen obj ->
- (* let's cook the object at every level *)
- HashTable.remove hashtable (uri,0) ;
- let obj' = CicSubstitution.undebrujin_inductive_def uri obj in
- HashTable.add hashtable (uri,0) (Cooked obj') ;
- let cooked_objs = !cook_obj obj' uri in
- let last_cooked_level = ref 0 in
- let last_cooked_obj = ref obj' in
- List.iter
- (fun (n,cobj) ->
- for i = !last_cooked_level + 1 to n do
- HashTable.add hashtable (uri,i) (Cooked !last_cooked_obj)
- done ;
- HashTable.add hashtable (uri,n + 1) (Cooked cobj) ;
- last_cooked_level := n + 1 ;
- last_cooked_obj := cobj
- ) cooked_objs ;
- for i = !last_cooked_level + 1 to UriManager.depth_of_uri uri + 1 do
- HashTable.add hashtable (uri,i) (Cooked !last_cooked_obj)
- done
- | _ -> raise (CouldNotUnfreeze (UriManager.string_of_uri uri))
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module implements a trival cache system (an hash-table) for cic *)(* objects. Uses the getter (getter.ml) and the parser (cicParser.ml) *)(* *)
-(******************************************************************************)
-
-exception CircularDependency of string;;
-
-(* get_obj uri *)
-(* returns the cic object whose uri is uri. If the term is not just in cache, *)
-(* then it is parsed via CicParser.term_of_xml from the file whose name is *)
-(* the result of Getter.get uri *)
-val get_obj : UriManager.uri -> Cic.obj
-
-(* get_annobj uri *)
-(* returns the cic object whose uri is uri either in annotated and in *)
-(* deannotated form. It returns also the map from ids to annotation targets. *)
-(* The term is put in cache if it's not there yet. *)
-(* The functions raise CircularDependency if asked to retrieve a Frozen object*)
-val get_annobj :
- UriManager.uri -> Cic.annobj * (Cic.id, Cic.anntarget) Hashtbl.t * Cic.obj
-
-(* DANGEROUS!!! *)
-(* USEFUL ONLY DURING THE FIXING OF THE FILES *)
-(* change_obj uri (Some newobj) *)
-(* maps uri to newobj in cache. *)
-(* change_obj uri None *)
-(* maps uri to a freeze dummy-object. *)
-val change_obj : UriManager.uri -> Cic.obj option -> unit
-
-type type_checked_obj =
- CheckedObj of Cic.obj (* cooked obj *)
- | UncheckedObj of Cic.obj (* uncooked obj *)
-
-(* is_type_checked uri cookingsno *)
-(*CSC commento falso ed obsoleto *)
-(* returns (true,object) if the object has been type-checked *)
-(* otherwise it returns (false,object) and freeze the object for *)
-(* type-checking *)
-(* set_type_checking_info must be called to unfreeze the object *)
-val is_type_checked : UriManager.uri -> int -> type_checked_obj
-
-(* set_type_checking_info uri *)
-(* must be called once the type-checking of uri is finished *)
-(* The object whose uri is uri is unfreezed and won't be type-checked *)
-(* again in the future (is_type_checked will return true) *)
-val set_type_checking_info : UriManager.uri -> unit
-
-(* get_cooked_obj uri cookingsno *)
-val get_cooked_obj : UriManager.uri -> int -> Cic.obj
-
-val cook_obj : (Cic.obj -> UriManager.uri -> (int * Cic.obj) list) ref
+++ /dev/null
-exception Impossible;;
-exception NotImplemented of int * string;;
-exception WrongUriToConstant;;
-exception WrongUriToVariable of string;;
-exception WrongUriToInductiveDefinition;;
-
-(* mem x lol is true if x is a member of one *)
-(* of the lists of the list of (int * list) lol *)
-let mem x lol =
- List.fold_right (fun (_,l) i -> i || List.mem x l) lol false
-;;
-
-(* cook var term *)
-let cook curi cookingsno var =
- let rec aux k =
- let module C = Cic in
- function
- C.Rel n as t ->
- (match n with
- n when n >= k -> C.Rel (n + 1)
- | _ -> C.Rel n
- )
- | C.Var uri as t ->
- if UriManager.eq uri var then
- C.Rel k
- else
- t
- | C.Meta _ as t -> t
- | C.Sort _ as t -> t
- | C.Implicit as t -> t
- | C.Cast (te, ty) -> C.Cast (aux k te, aux k ty)
- | C.Prod (n,s,t) -> C.Prod (n, aux k s, aux (k + 1) t)
- | C.Lambda (n,s,t) -> C.Lambda (n, aux k s, aux (k + 1) t)
- | C.Appl (he::tl) ->
- (* Get rid of C.Appl (C.Appl l1) l2 *)
- let newtl = List.map (aux k) tl in
- (match aux k he with
- C.Appl (he'::tl') -> C.Appl (he'::(tl'@newtl))
- | t -> C.Appl (t::newtl)
- )
- | C.Appl [] -> raise Impossible
- | C.Const (uri,_) ->
- if match CicCache.get_obj uri with
- C.Definition (_,_,_,params) when mem var params -> true
- | C.Definition _ -> false
- | C.Axiom (_,_,params) when mem var params -> true
- | C.Axiom _ -> false
- | C.CurrentProof _ ->
- raise (NotImplemented (2,(UriManager.string_of_uri uri)))
- | _ -> raise WrongUriToConstant
- then
- C.Appl
- ((C.Const (uri,UriManager.relative_depth curi uri cookingsno))::
- [C.Rel k])
- else
- C.Const (uri,UriManager.relative_depth curi uri cookingsno)
- | C.Abst _ as t -> t
- | C.MutInd (uri,_,i) ->
- if match CicCache.get_obj uri with
- C.InductiveDefinition (_,params,_) when mem var params -> true
- | C.InductiveDefinition _ -> false
- | _ -> raise WrongUriToInductiveDefinition
- then
- C.Appl ((C.MutInd (uri,UriManager.relative_depth curi uri cookingsno,i))::[C.Rel k])
- else
- C.MutInd (uri,UriManager.relative_depth curi uri cookingsno,i)
- | C.MutConstruct (uri,_,i,j) ->
- if match CicCache.get_obj uri with
- C.InductiveDefinition (_,params,_) when mem var params -> true
- | C.InductiveDefinition _ -> false
- | _ -> raise WrongUriToInductiveDefinition
- then
- C.Appl ((C.MutConstruct (uri,UriManager.relative_depth curi uri cookingsno,i,j))::[C.Rel k])
- else
- C.MutConstruct (uri,UriManager.relative_depth curi uri cookingsno,i,j)
- | C.MutCase (uri,_,i,outt,term,pl) ->
- let substitutedfl =
- List.map (aux k) pl
- in
- C.MutCase (uri,UriManager.relative_depth curi uri cookingsno,i,
- aux k outt,aux k term, substitutedfl)
- | C.Fix (i,fl) ->
- let len = List.length fl in
- let substitutedfl =
- List.map
- (fun (name,i,ty,bo) -> (name,i,aux k ty, aux (k+len) bo))
- fl
- in
- C.Fix (i, substitutedfl)
- | C.CoFix (i,fl) ->
- let len = List.length fl in
- let substitutedfl =
- List.map
- (fun (name,ty,bo) -> (name,aux k ty, aux (k+len) bo))
- fl
- in
- C.CoFix (i, substitutedfl)
- in
- aux 1
-;;
-
-let cook_gen add_binder curi cookingsno ty vars =
- let module C = Cic in
- let module U = UriManager in
- let rec cookrec ty =
- function
- var::tl ->
- let (varname, vartype) =
- match CicCache.get_obj var with
- C.Variable (varname, vartype) -> (varname, vartype)
- | _ -> raise (WrongUriToVariable (U.string_of_uri var))
- in
- cookrec (add_binder (C.Name varname) vartype (cook curi cookingsno var ty)) tl
- | _ -> ty
- in
- cookrec ty vars
-;;
-
-let cook_prod =
- cook_gen (fun n s t -> Cic.Prod (n,s,t))
-and cook_lambda =
- cook_gen (fun n s t -> Cic.Lambda (n,s,t))
-;;
-
-(*CSC: sbagliato da rifare e completare *)
-let cook_one_level obj curi cookingsno vars =
- let module C = Cic in
- match obj with
- C.Definition (id,te,ty,params) ->
- let ty' = cook_prod curi cookingsno ty vars in
- let te' = cook_lambda curi cookingsno te vars in
- C.Definition (id,te',ty',params)
- | C.Axiom (id,ty,parameters) ->
- let ty' = cook_prod curi cookingsno ty vars in
- C.Axiom (id,ty',parameters)
- | C.Variable _ as obj -> obj
- | C.CurrentProof (id,conjs,te,ty) ->
- let ty' = cook_prod curi cookingsno ty vars in
- let te' = cook_lambda curi cookingsno te vars in
- C.CurrentProof (id,conjs,te',ty')
- | C.InductiveDefinition (dl, params, n_ind_params) ->
- let dl' =
- List.map
- (fun (name,inductive,arity,constructors) ->
- let constructors' =
- List.map
- (fun (name,ty,r) ->
- let r' =
- match !r with
- None -> raise Impossible
- | Some r -> List.map (fun _ -> false) vars @ r
- in
- (name,cook_prod curi cookingsno ty vars,ref (Some r'))
- ) constructors
- in
- (name,inductive,cook_prod curi cookingsno arity vars,constructors')
- ) dl
- in
- C.InductiveDefinition (dl', params, n_ind_params + List.length vars)
-;;
-
-let cook_obj obj uri =
- let module C = Cic in
- let params =
- match obj with
- C.Definition (_,_,_,params) -> params
- | C.Axiom (_,_,params) -> params
- | C.Variable _ -> []
- | C.CurrentProof _ -> []
- | C.InductiveDefinition (_,params,_) -> params
- in
- let rec cook_all_levels obj =
- function
- [] -> []
- | (n,vars)::tl ->
- let cooked_obj = cook_one_level obj uri (n + 1) (List.rev vars) in
- (n,cooked_obj)::(cook_all_levels cooked_obj tl)
- in
- cook_all_levels obj (List.rev params)
-;;
-
-CicCache.cook_obj := cook_obj;;
+++ /dev/null
-exception Impossible
-exception NotImplemented of int * string
-exception WrongUriToConstant
-exception WrongUriToVariable of string
-exception WrongUriToInductiveDefinition
-val cook_obj : Cic.obj -> UriManager.uri -> (int * Cic.obj) list
+++ /dev/null
-exception WrongUriToConstant;;
-exception WrongUriToInductiveDefinition;;
-exception CircularDependency of string;;
-
-module OrderedUris =
- struct
- type t = UriManager.uri
- let compare (s1 : t) (s2 : t) =
- (* library function for = *)
- compare s1 s2
- (*if s1 = s2 then 0 else if s1 < s2 then (-1) else 1*)
- end
-;;
-
-let filename_of_uri uri =
- let uri' = UriManager.string_of_uri uri in
- let fn = Str.replace_first (Str.regexp "cic:") Configuration.helm_dir uri' in
- fn ^ ".xml"
-;;
-
-(* quite inefficient coding of a set of strings: the only operations *)
-(* performed are mem O(log n), and union O(n * log n?) *)
-(* Perhaps a better implementation would be an array of bits or a map *)
-(* from uri to booleans *)
-module SetOfUris = Set.Make(OrderedUris);;
-
-let (@@) = SetOfUris.union;;
-
-let rec parameters_of te ty pparams=
- let module S = SetOfUris in
- let module C = Cic in
- let rec aux =
- function
- C.Rel _ -> S.empty
- | C.Var uri -> S.singleton uri
- | C.Meta _ -> S.empty
- | C.Sort _ -> S.empty
- | C.Implicit -> S.empty
- | C.Cast (te, ty) -> aux te @@ aux ty
- | C.Prod (_, s, t) -> aux s @@ aux t
- | C.Lambda (_, s, t) -> aux s @@ aux t
- | C.Appl l -> List.fold_right (fun x i -> aux x @@ i) l S.empty
- | C.Const (uri,_) ->
- (* the parameters could be not exact but only possible *)
- fix_params uri (Some (filename_of_uri uri)) ;
- (* now the parameters are surely possible *)
- (match CicCache.get_obj uri with
- C.Definition (_, _, _, params) ->
- List.fold_right
- (fun (_,l) i ->
- List.fold_right
- (fun x i -> S.singleton x @@ i) l i
- ) params S.empty
- | C.Axiom (_, _, params) ->
- List.fold_right
- (fun (_,l) i ->
- List.fold_right
- (fun x i -> S.singleton x @@ i) l i
- ) params S.empty
- | C.CurrentProof _ -> S.empty (*CSC wrong *)
- | _ -> raise WrongUriToConstant
- )
- | C.Abst _ -> S.empty
- | C.MutInd (uri,_,_) ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (_, params, _) ->
- List.fold_right
- (fun (_,l) i ->
- List.fold_right
- (fun x i -> S.singleton x @@ i) l i
- ) params S.empty
- | _ -> raise WrongUriToInductiveDefinition
- )
- | C.MutConstruct (uri,_,_,_) ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (_, params, _) ->
- List.fold_right
- (fun (_,l) i ->
- List.fold_right
- (fun x i -> S.singleton x @@ i) l i
- ) params S.empty
- | _ -> raise WrongUriToInductiveDefinition
- )
- | C.MutCase (uri,_,_,outtype,term,patterns) ->
- (*CSC cosa basta? Ci vuole anche uri? *)
- (match CicCache.get_obj uri with
- C.InductiveDefinition (_, params, _) ->
- List.fold_right
- (fun (_,l) i ->
- List.fold_right
- (fun x i -> S.singleton x @@ i) l i
- ) params S.empty
- | _ -> raise WrongUriToInductiveDefinition
- ) @@ aux outtype @@ aux term @@
- List.fold_right (fun x i -> aux x @@ i) patterns S.empty
- | C.Fix (_,fl) ->
- List.fold_right
- (fun (_,_,ty,bo) i -> aux ty @@ aux bo @@ i)
- fl S.empty
- | C.CoFix (_,fl) ->
- List.fold_right
- (fun (_,ty,bo) i -> aux ty @@ aux bo @@ i)
- fl S.empty
- in
- let actual_params = aux te @@ aux ty in
- (* sort_actual_params wants in input the ordered list of possible params *)
- let rec sort_actual_params2 =
- function
- [] -> []
- | he::tl when S.mem he actual_params -> he::(sort_actual_params2 tl)
- | _::tl -> sort_actual_params2 tl
- in
- let rec sort_actual_params =
- function
- [] -> []
- | (n,l)::tl -> (n, sort_actual_params2 l)::(sort_actual_params tl)
- in
- sort_actual_params pparams
-
-and fix_params uri filename =
- let module C = Cic in
- let (ann, _, deann) = CicCache.get_annobj uri in
- match ann, deann with
- (C.ADefinition (xid, ann, id, te, ty, C.Possible pparams),
- C.Definition (id', te', ty', _)) ->
- (* let's freeze the object to avoid circular dependencies *)
- CicCache.change_obj uri None ;
- let real_params = parameters_of te' ty' pparams in
- let fixed =
- C.ADefinition (xid,ann,id,te,ty,C.Actual real_params)
- in
- Xml.pp (Cic2Xml.pp fixed uri) filename ;
- (* unfreeze and fix the object *)
- CicCache.change_obj uri
- (Some (C.Definition (id', te', ty', real_params)))
- | _ -> ()
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This is the main (top level) module of a parser for cic objects from xml *)
-(* files to the internal representation. It uses the modules cicParser2 *)
-(* (objects level) and cicParser3 (terms level) *)
-(* *)
-(******************************************************************************)
-
-exception Warnings;;
-
-class warner =
- object
- method warn w =
- print_endline ("WARNING: " ^ w) ;
- (raise Warnings : unit)
- end
-;;
-
-exception EmptyUri;;
-
-(* given an uri u it returns the list of tokens of the base uri of u *)
-(* e.g.: token_of_uri "cic:/a/b/c/d.xml" returns ["a" ; "b" ; "c"] *)
-let tokens_of_uri uri =
- let uri' = UriManager.string_of_uri uri in
- let rec chop_list =
- function
- [] -> raise EmptyUri
- | he::[fn] -> [he]
- | he::tl -> he::(chop_list tl)
- in
- let trimmed_uri = Str.replace_first (Str.regexp "cic:") "" uri' in
- let list_of_tokens = Str.split (Str.regexp "/") trimmed_uri in
- chop_list list_of_tokens
-;;
-
-(* given the filename of an xml file of a cic object it returns its internal *)
-(* representation. process_annotations is true if the annotations do really *)
-(* matter *)
-let term_of_xml filename uri process_annotations =
- let module Y = Pxp_yacc in
- try
- let d =
- (* sets the current base uri to resolve relative URIs *)
- CicParser3.current_sp := tokens_of_uri uri ;
- CicParser3.current_uri := uri ;
- CicParser3.process_annotations := process_annotations ;
- CicParser3.ids_to_targets :=
- if process_annotations then Some (Hashtbl.create 500) else None ;
- let config = {Y.default_config with Y.warner = new warner} in
- Y.parse_document_entity config
-(*PXP (Y.ExtID (Pxp_types.System filename,
- new Pxp_reader.resolve_as_file ~url_of_id ()))
-*) (PxpUriResolver.from_file filename)
- CicParser3.domspec
- in
- let ids_to_targets = !CicParser3.ids_to_targets in
- let res = (CicParser2.get_term d#root, ids_to_targets) in
- CicParser3.ids_to_targets := None ; (* let's help the GC *)
- res
- with
- e ->
- print_endline (Pxp_types.string_of_exn e) ;
- raise e
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 22/03/2000 *)
-(* *)
-(* This is the main (top level) module of a parser for cic objects from xml *)
-(* files to the internal representation. It uses the modules cicParser2 *)
-(* (objects level) and cicParser3 (terms level) *)
-(* *)
-(******************************************************************************)
-
-(* given the filename of an xml file of a cic object and it's uri, it returns *)
-(* its internal annotated representation. The boolean is set to true if the *)
-(* annotations do really matter *)
-val term_of_xml :
- string -> UriManager.uri -> bool ->
- Cic.annobj * (Cic.id, Cic.anntarget) Hashtbl.t option
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module is the objects level of a parser for cic objects from xml *)
-(* files to the internal representation. It uses the module cicParser3 *)
-(* cicParser3 (terms level) and it is used only through cicParser2 (top *)
-(* level). *)
-(* *)
-(******************************************************************************)
-
-exception IllFormedXml of int;;
-exception NotImplemented;;
-
-(* Utility functions that transform a Pxp attribute into something useful *)
-
-(* mk_absolute_uris "n1: v1 ... vn n2 : u1 ... un ...." *)
-(* returns [(n1,[absolute_uri_for_v1 ; ... ; absolute_uri_for_vn]) ; (n2,...) *)
-let mk_absolute_uris s =
- let l = (Str.split (Str.regexp ":") s) in
- let absolute_of_relative n v =
- let module P3 = CicParser3 in
- let rec mkburi =
- function
- (0,_) -> "/"
- | (n,he::tl) when n > 0 ->
- "/" ^ he ^ mkburi (n - 1, tl)
- | _ -> raise (IllFormedXml 12)
- in
- let m = List.length !P3.current_sp - (int_of_string n) in
- let buri = mkburi (m, !P3.current_sp) in
- UriManager.uri_of_string ("cic:" ^ buri ^ v ^ ".var")
- in
- let rec absolutize =
- function
- [] -> []
- | [no ; vs] ->
- let vars = (Str.split (Str.regexp " ") vs) in
- [(int_of_string no, List.map (absolute_of_relative no) vars)]
- | no::vs::tl ->
- let vars = (Str.split (Str.regexp " ") vs) in
- let rec add_prefix =
- function
- [no2] -> ([], no2)
- | he::tl ->
- let (pvars, no2) = add_prefix tl in
- ((absolute_of_relative no he)::pvars, no2)
- | _ -> raise (IllFormedXml 11)
- in
- let (pvars, no2) = add_prefix vars in
- (int_of_string no, pvars)::(absolutize (no2::tl))
- | _ -> raise (IllFormedXml 10)
- in
- (* last parameter must be applied first *)
- absolutize l
-;;
-
-let option_uri_list_of_attr a1 a2 =
- let module T = Pxp_types in
- let parameters =
- match a1 with
- T.Value s -> mk_absolute_uris s
- | _ -> raise (IllFormedXml 0)
- in
- match a2 with
- T.Value "POSSIBLE" -> Cic.Possible parameters
- | T.Implied_value -> Cic.Actual parameters
- | _ -> raise (IllFormedXml 0)
-;;
-
-let uri_list_of_attr a =
- let module T = Pxp_types in
- match a with
- T.Value s -> mk_absolute_uris s
- | _ -> raise (IllFormedXml 0)
-;;
-
-let string_of_attr a =
- let module T = Pxp_types in
- match a with
- T.Value s -> s
- | _ -> raise (IllFormedXml 0)
-;;
-
-let int_of_attr a =
- int_of_string (string_of_attr a)
-;;
-
-let bool_of_attr a =
- bool_of_string (string_of_attr a)
-;;
-
-(* Other utility functions *)
-
-let get_content n =
- match n#sub_nodes with
- [ t ] -> t
- | _ -> raise (IllFormedXml 1)
-;;
-
-let register_id id node =
- if !CicParser3.process_annotations then
- match !CicParser3.ids_to_targets with
- None -> assert false
- | Some ids_to_targets ->
- Hashtbl.add ids_to_targets id (Cic.Object node)
-;;
-
-(* Functions that, given the list of sons of a node of the cic dom (objects *)
-(* level), retrieve the internal representation associated to the node. *)
-(* Everytime a cic term subtree is found, it is translated to the internal *)
-(* representation using the method to_cic_term defined in cicParser3. *)
-(* Each function raise IllFormedXml if something goes wrong, but this should *)
-(* be impossible due to the presence of the dtd *)
-(* The functions should really be obvious looking at their name and the cic *)
-(* dtd *)
-
-(* called when a CurrentProof is found *)
-let get_conjs_value_type l =
- let rec rget (c, v, t) l =
- let module D = Pxp_document in
- match l with
- [] -> (c, v, t)
- | conj::tl when conj#node_type = D.T_element "Conjecture" ->
- let no = int_of_attr (conj#attribute "no")
- and typ = (get_content conj)#extension#to_cic_term in
- rget ((no, typ)::c, v, t) tl
- | value::tl when value#node_type = D.T_element "body" ->
- let v' = (get_content value)#extension#to_cic_term in
- (match v with
- None -> rget (c, Some v', t) tl
- | _ -> raise (IllFormedXml 2)
- )
- | typ::tl when typ#node_type = D.T_element "type" ->
- let t' = (get_content typ)#extension#to_cic_term in
- (match t with
- None -> rget (c, v, Some t') tl
- | _ -> raise (IllFormedXml 3)
- )
- | _ -> raise (IllFormedXml 4)
- in
- match rget ([], None, None) l with
- (c, Some v, Some t) -> (c, v, t)
- | _ -> raise (IllFormedXml 5)
-;;
-
-(* used only by get_inductive_types; called one time for each inductive *)
-(* definitions in a block of inductive definitions *)
-let get_names_arity_constructors l =
- let rec rget (a,c) l =
- let module D = Pxp_document in
- match l with
- [] -> (a, c)
- | arity::tl when arity#node_type = D.T_element "arity" ->
- let a' = (get_content arity)#extension#to_cic_term in
- rget (Some a',c) tl
- | con::tl when con#node_type = D.T_element "Constructor" ->
- let id = string_of_attr (con#attribute "name")
- and ty = (get_content con)#extension#to_cic_term in
- rget (a,(id,ty,ref None)::c) tl
- | _ -> raise (IllFormedXml 9)
- in
- match rget (None,[]) l with
- (Some a, c) -> (a, List.rev c)
- | _ -> raise (IllFormedXml 8)
-;;
-
-(* called when an InductiveDefinition is found *)
-let rec get_inductive_types =
- function
- [] -> []
- | he::tl ->
- let tyname = string_of_attr (he#attribute "name")
- and inductive = bool_of_attr (he#attribute "inductive")
- and (arity,cons) =
- get_names_arity_constructors (he#sub_nodes)
- in
- (tyname,inductive,arity,cons)::(get_inductive_types tl) (*CSC 0 a caso *)
-;;
-
-(* This is the main function and also the only one used directly from *)
-(* cicParser. Given the root of the dom tree, it returns the internal *)
-(* representation of the cic object described in the tree *)
-(* It uses the previous functions and the to_cic_term method defined *)
-(* in cicParser3 (used for subtrees that encode cic terms) *)
-let rec get_term n =
- let module D = Pxp_document in
- let module C = Cic in
- let ntype = n # node_type in
- match ntype with
- D.T_element "Definition" ->
- let id = string_of_attr (n # attribute "name")
- and params =
- option_uri_list_of_attr (n#attribute "params") (n#attribute "paramMode")
- and (value, typ) =
- let sons = n#sub_nodes in
- match sons with
- [v ; t] when
- v#node_type = D.T_element "body" &&
- t#node_type = D.T_element "type" ->
- let v' = get_content v
- and t' = get_content t in
- (v'#extension#to_cic_term, t'#extension#to_cic_term)
- | _ -> raise (IllFormedXml 6)
- and xid = string_of_attr (n#attribute "id") in
- let res = C.ADefinition (xid, ref None, id, value, typ, params) in
- register_id xid res ;
- res
- | D.T_element "Axiom" ->
- let id = string_of_attr (n # attribute "name")
- and params = uri_list_of_attr (n # attribute "params")
- and typ =
- (get_content (get_content n))#extension#to_cic_term
- and xid = string_of_attr (n#attribute "id") in
- let res = C.AAxiom (xid, ref None, id, typ, params) in
- register_id xid res ;
- res
- | D.T_element "CurrentProof" ->
- let name = string_of_attr (n#attribute "name")
- and xid = string_of_attr (n#attribute "id") in
- let sons = n#sub_nodes in
- let (conjs, value, typ) = get_conjs_value_type sons in
- let res = C.ACurrentProof (xid, ref None, name, conjs, value, typ) in
- register_id xid res ;
- res
- | D.T_element "InductiveDefinition" ->
- let sons = n#sub_nodes
- and xid = string_of_attr (n#attribute "id") in
- let inductiveTypes = get_inductive_types sons
- and params = uri_list_of_attr (n#attribute "params")
- and nparams = int_of_attr (n#attribute "noParams") in
- let res =
- C.AInductiveDefinition (xid, ref None, inductiveTypes, params, nparams)
- in
- register_id xid res ;
- res
- | D.T_element "Variable" ->
- let name = string_of_attr (n#attribute "name")
- and xid = string_of_attr (n#attribute "id") in
- let typ = (get_content (get_content n))#extension#to_cic_term in
- let res = C.AVariable (xid,ref None,name,typ) in
- register_id xid res ;
- res
- | D.T_element _
- | D.T_data ->
- raise (IllFormedXml 7)
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module is the objects level of a parser for cic objects from xml *)
-(* files to the internal representation. It uses the module cicParser3 *)
-(* cicParser3 (terms level) and it is used only through cicParser2 (top *)
-(* level). *)
-(* *)
-(******************************************************************************)
-
-exception IllFormedXml of int
-exception NotImplemented
-
-(* This is the main function and also the only one used directly from *)
-(* cicParser. Given the root of the dom tree, it returns the internal *)
-(* representation of the cic object described in the tree *)
-(* It uses the previous functions and the to_cic_term method defined *)
-(* in cicParser3 (used for subtrees that encode cic terms) *)
-val get_term :
- < attribute : string -> Pxp_types.att_value;
- node_type : Pxp_document.node_type;
- sub_nodes : < attribute : string -> Pxp_types.att_value;
- node_type : Pxp_document.node_type;
- sub_nodes : CicParser3.cic_term Pxp_document.node list;
- .. >
- list;
- .. > ->
- Cic.annobj
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module is the terms level of a parser for cic objects from xml *)
-(* files to the internal representation. It is used by the module cicParser2 *)
-(* (objects level). It defines an extension of the standard dom using the *)
-(* object-oriented extension machinery of markup: an object with a method *)
-(* to_cic_term that returns the internal representation of the subtree is *)
-(* added to each node of the dom tree *)
-(* *)
-(******************************************************************************)
-
-exception IllFormedXml of int;;
-
-(* The hashtable from the current identifiers to the object or the terms *)
-let ids_to_targets = ref None;;
-
-(* The list of tokens of the current section path. *)
-(* Used to resolve relative URIs *)
-let current_sp = ref [];;
-
-(* The uri of the object been parsed *)
-let current_uri = ref (UriManager.uri_of_string "cic:/.xml");;
-
-(* True if annotation really matter *)
-let process_annotations = ref false;;
-
-(* Utility functions to map a markup attribute to something useful *)
-
-let cic_attr_of_xml_attr =
- function
- Pxp_types.Value s -> Cic.Name s
- | Pxp_types.Implied_value -> Cic.Anonimous
- | _ -> raise (IllFormedXml 1)
-
-let cic_sort_of_xml_attr =
- function
- Pxp_types.Value "Prop" -> Cic.Prop
- | Pxp_types.Value "Set" -> Cic.Set
- | Pxp_types.Value "Type" -> Cic.Type
- | _ -> raise (IllFormedXml 2)
-
-let int_of_xml_attr =
- function
- Pxp_types.Value n -> int_of_string n
- | _ -> raise (IllFormedXml 3)
-
-let uri_of_xml_attr =
- function
- Pxp_types.Value s -> UriManager.uri_of_string s
- | _ -> raise (IllFormedXml 4)
-
-let string_of_xml_attr =
- function
- Pxp_types.Value s -> s
- | _ -> raise (IllFormedXml 5)
-
-let binder_of_xml_attr =
- function
- Pxp_types.Value s -> if !process_annotations then Some s else None
- | _ -> raise (IllFormedXml 17)
-;;
-
-let register_id id node =
- if !process_annotations then
- match !ids_to_targets with
- None -> assert false
- | Some ids_to_targets ->
- Hashtbl.add ids_to_targets id (Cic.Term node)
-;;
-
-(* the "interface" of the class linked to each node of the dom tree *)
-
-class virtual cic_term =
- object (self)
-
- (* fields and methods ever required by markup *)
- val mutable node = (None : cic_term Pxp_document.node option)
-
- method clone = {< >}
- method node =
- match node with
- None ->
- assert false
- | Some n -> n
- method set_node n =
- node <- Some n
-
- (* a method that returns the internal representation of the tree (term) *)
- (* rooted in this node *)
- method virtual to_cic_term : Cic.annterm
- end
-;;
-
-(* the class of the objects linked to nodes that are not roots of cic terms *)
-class eltype_not_of_cic =
- object (self)
-
- inherit cic_term
-
- method to_cic_term = raise (IllFormedXml 6)
- end
-;;
-
-(* the class of the objects linked to nodes whose content is a cic term *)
-(* (syntactic sugar xml entities) e.g. <type> ... </type> *)
-class eltype_transparent =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- match n#sub_nodes with
- [ t ] -> t#extension#to_cic_term
- | _ -> raise (IllFormedXml 7)
- end
-;;
-
-(* A class for each cic node type *)
-
-class eltype_fix =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let nofun = int_of_xml_attr (n#attribute "noFun")
- and id = string_of_xml_attr (n#attribute "id")
- and functions =
- let sons = n#sub_nodes in
- List.map
- (function
- f when f#node_type = Pxp_document.T_element "FixFunction" ->
- let name = string_of_xml_attr (f#attribute "name")
- and recindex = int_of_xml_attr (f#attribute "recIndex")
- and (ty, body) =
- match f#sub_nodes with
- [t ; b] when
- t#node_type = Pxp_document.T_element "type" &&
- b#node_type = Pxp_document.T_element "body" ->
- (t#extension#to_cic_term, b#extension#to_cic_term)
- | _ -> raise (IllFormedXml 14)
- in
- (name, recindex, ty, body)
- | _ -> raise (IllFormedXml 13)
- ) sons
- in
- let res = Cic.AFix (id, ref None, nofun, functions) in
- register_id id res ;
- res
- end
-;;
-
-class eltype_cofix =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let nofun = int_of_xml_attr (n#attribute "noFun")
- and id = string_of_xml_attr (n#attribute "id")
- and functions =
- let sons = n#sub_nodes in
- List.map
- (function
- f when f#node_type = Pxp_document.T_element "CofixFunction" ->
- let name = string_of_xml_attr (f#attribute "name")
- and (ty, body) =
- match f#sub_nodes with
- [t ; b] when
- t#node_type = Pxp_document.T_element "type" &&
- b#node_type = Pxp_document.T_element "body" ->
- (t#extension#to_cic_term, b#extension#to_cic_term)
- | _ -> raise (IllFormedXml 16)
- in
- (name, ty, body)
- | _ -> raise (IllFormedXml 15)
- ) sons
- in
- let res = Cic.ACoFix (id, ref None, nofun, functions) in
- register_id id res ;
- res
- end
-;;
-
-class eltype_implicit =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let id = string_of_xml_attr (n#attribute "id") in
- let res = Cic.AImplicit (id, ref None) in
- register_id id res ;
- res
- end
-;;
-
-class eltype_rel =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let value = int_of_xml_attr (n#attribute "value")
- and binder = binder_of_xml_attr (n#attribute "binder")
- and id = string_of_xml_attr (n#attribute "id") in
- let res = Cic.ARel (id,ref None,value,binder) in
- register_id id res ;
- res
- end
-;;
-
-class eltype_meta =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let value = int_of_xml_attr (n#attribute "no")
- and id = string_of_xml_attr (n#attribute "id") in
- let res = Cic.AMeta (id,ref None,value) in
- register_id id res ;
- res
- end
-;;
-
-class eltype_var =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let name = string_of_xml_attr (n#attribute "relUri")
- and xid = string_of_xml_attr (n#attribute "id") in
- match Str.split (Str.regexp ",") name with
- [index; id] ->
- let get_prefix n =
- let rec aux =
- function
- (0,_) -> "/"
- | (n,he::tl) when n > 0 -> "/" ^ he ^ aux (n - 1, tl)
- | _ -> raise (IllFormedXml 19)
- in
- aux (List.length !current_sp - n,!current_sp)
- in
- let res =
- Cic.AVar
- (xid,ref None,
- (UriManager.uri_of_string
- ("cic:" ^ get_prefix (int_of_string index) ^ id ^ ".var"))
- )
- in
- register_id id res ;
- res
- | _ -> raise (IllFormedXml 18)
- end
-;;
-
-class eltype_apply =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let children = n#sub_nodes
- and id = string_of_xml_attr (n#attribute "id") in
- if List.length children < 2 then raise (IllFormedXml 8)
- else
- let res =
- Cic.AAppl
- (id,ref None,List.map (fun x -> x#extension#to_cic_term) children)
- in
- register_id id res ;
- res
- end
-;;
-
-class eltype_cast =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let sons = n#sub_nodes
- and id = string_of_xml_attr (n#attribute "id") in
- match sons with
- [te ; ty] when
- te#node_type = Pxp_document.T_element "term" &&
- ty#node_type = Pxp_document.T_element "type" ->
- let term = te#extension#to_cic_term
- and typ = ty#extension#to_cic_term in
- let res = Cic.ACast (id,ref None,term,typ) in
- register_id id res ;
- res
- | _ -> raise (IllFormedXml 9)
- end
-;;
-
-class eltype_sort =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let sort = cic_sort_of_xml_attr (n#attribute "value")
- and id = string_of_xml_attr (n#attribute "id") in
- let res = Cic.ASort (id,ref None,sort) in
- register_id id res ;
- res
- end
-;;
-
-class eltype_abst =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let value = uri_of_xml_attr (n#attribute "uri")
- and id = string_of_xml_attr (n#attribute "id") in
- let res = Cic.AAbst (id,ref None,value) in
- register_id id res ;
- res
- end
-;;
-
-class eltype_const =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let module U = UriManager in
- let n = self#node in
- let value = uri_of_xml_attr (n#attribute "uri")
- and id = string_of_xml_attr (n#attribute "id") in
- let res =
- Cic.AConst (id,ref None,value, U.relative_depth !current_uri value 0)
- in
- register_id id res ;
- res
- end
-;;
-
-class eltype_mutind =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let module U = UriManager in
- let n = self#node in
- let name = uri_of_xml_attr (n#attribute "uri")
- and noType = int_of_xml_attr (n#attribute "noType")
- and id = string_of_xml_attr (n#attribute "id") in
- let res =
- Cic.AMutInd
- (id,ref None,name, U.relative_depth !current_uri name 0, noType)
- in
- register_id id res ;
- res
- end
-;;
-
-class eltype_mutconstruct =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let module U = UriManager in
- let n = self#node in
- let name = uri_of_xml_attr (n#attribute "uri")
- and noType = int_of_xml_attr (n#attribute "noType")
- and noConstr = int_of_xml_attr (n#attribute "noConstr")
- and id = string_of_xml_attr (n#attribute "id") in
- let res =
- Cic.AMutConstruct
- (id, ref None, name, U.relative_depth !current_uri name 0,
- noType, noConstr)
- in
- register_id id res ;
- res
- end
-;;
-
-class eltype_prod =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let sons = n#sub_nodes
- and id = string_of_xml_attr (n#attribute "id") in
- match sons with
- [s ; t] when
- s#node_type = Pxp_document.T_element "source" &&
- t#node_type = Pxp_document.T_element "target" ->
- let name = cic_attr_of_xml_attr (t#attribute "binder")
- and source = s#extension#to_cic_term
- and target = t#extension#to_cic_term in
- let res = Cic.AProd (id,ref None,name,source,target) in
- register_id id res ;
- res
- | _ -> raise (IllFormedXml 10)
- end
-;;
-
-class eltype_mutcase =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let module U = UriManager in
- let n = self#node in
- let sons = n#sub_nodes
- and id = string_of_xml_attr (n#attribute "id") in
- match sons with
- ty::te::patterns when
- ty#node_type = Pxp_document.T_element "patternsType" &&
- te#node_type = Pxp_document.T_element "inductiveTerm" ->
- let ci = uri_of_xml_attr (n#attribute "uriType")
- and typeno = int_of_xml_attr (n#attribute "noType")
- and inductiveType = ty#extension#to_cic_term
- and inductiveTerm = te#extension#to_cic_term
- and lpattern= List.map (fun x -> x#extension#to_cic_term) patterns
- in
- let res =
- Cic.AMutCase (id,ref None,ci,U.relative_depth !current_uri ci 0,
- typeno,inductiveType,inductiveTerm,lpattern)
- in
- register_id id res ;
- res
- | _ -> raise (IllFormedXml 11)
- end
-;;
-
-class eltype_lambda =
- object (self)
-
- inherit cic_term
-
- method to_cic_term =
- let n = self#node in
- let sons = n#sub_nodes
- and id = string_of_xml_attr (n#attribute "id") in
- match sons with
- [s ; t] when
- s#node_type = Pxp_document.T_element "source" &&
- t#node_type = Pxp_document.T_element "target" ->
- let name = cic_attr_of_xml_attr (t#attribute "binder")
- and source = s#extension#to_cic_term
- and target = t#extension#to_cic_term in
- let res = Cic.ALambda (id,ref None,name,source,target) in
- register_id id res ;
- res
- | _ -> raise (IllFormedXml 12)
- end
-;;
-
-(* The definition of domspec, an hashtable that maps each node type to the *)
-(* object that must be linked to it. Used by markup. *)
-
-let domspec =
- let module D = Pxp_document in
- D.make_spec_from_alist
- ~data_exemplar: (new D.data_impl (new eltype_not_of_cic))
- ~default_element_exemplar: (new D.element_impl (new eltype_not_of_cic))
- ~element_alist:
- [ "REL", (new D.element_impl (new eltype_rel)) ;
- "VAR", (new D.element_impl (new eltype_var)) ;
- "META", (new D.element_impl (new eltype_meta)) ;
- "SORT", (new D.element_impl (new eltype_sort)) ;
- "IMPLICIT", (new D.element_impl (new eltype_implicit)) ;
- "CAST", (new D.element_impl (new eltype_cast)) ;
- "PROD", (new D.element_impl (new eltype_prod)) ;
- "LAMBDA", (new D.element_impl (new eltype_lambda)) ;
- "APPLY", (new D.element_impl (new eltype_apply)) ;
- "CONST", (new D.element_impl (new eltype_const)) ;
- "ABST", (new D.element_impl (new eltype_abst)) ;
- "MUTIND", (new D.element_impl (new eltype_mutind)) ;
- "MUTCONSTRUCT", (new D.element_impl (new eltype_mutconstruct)) ;
- "MUTCASE", (new D.element_impl (new eltype_mutcase)) ;
- "FIX", (new D.element_impl (new eltype_fix)) ;
- "COFIX", (new D.element_impl (new eltype_cofix)) ;
- "arity", (new D.element_impl (new eltype_transparent)) ;
- "term", (new D.element_impl (new eltype_transparent)) ;
- "type", (new D.element_impl (new eltype_transparent)) ;
- "body", (new D.element_impl (new eltype_transparent)) ;
- "source", (new D.element_impl (new eltype_transparent)) ;
- "target", (new D.element_impl (new eltype_transparent)) ;
- "patternsType", (new D.element_impl (new eltype_transparent)) ;
- "inductiveTerm", (new D.element_impl (new eltype_transparent)) ;
- "pattern", (new D.element_impl (new eltype_transparent))
- ]
- ()
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module is the terms level of a parser for cic objects from xml *)
-(* files to the internal representation. It is used by the module cicParser2 *)
-(* (objects level). It defines an extension of the standard dom using the *)
-(* object-oriented extension machinery of markup: an object with a method *)
-(* to_cic_term that returns the internal representation of the subtree is *)
-(* added to each node of the dom tree *)
-(* *)
-(******************************************************************************)
-
-exception IllFormedXml of int
-
-val ids_to_targets : (Cic.id, Cic.anntarget) Hashtbl.t option ref
-val current_sp : string list ref
-val current_uri : UriManager.uri ref
-val process_annotations : bool ref
-
-(* the "interface" of the class linked to each node of the dom tree *)
-class virtual cic_term :
- object ('a)
-
- (* fields and methods ever required by markup *)
- val mutable node : cic_term Pxp_document.node option
- method clone : 'a
- method node : cic_term Pxp_document.node
- method set_node : cic_term Pxp_document.node -> unit
-
- (* a method that returns the internal representation of the tree (term) *)
- (* rooted in this node *)
- method virtual to_cic_term : Cic.annterm
-
- end
-
-(* The definition of domspec, an hashtable that maps each node type to the *)
-(* object that must be linked to it. Used by markup. *)
-val domspec : cic_term Pxp_document.spec
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module implements a very simple Coq-like pretty printer that, given *)
-(* an object of cic (internal representation) returns a string describing the *)
-(* object in a syntax similar to that of coq *)
-(* *)
-(******************************************************************************)
-
-exception CicPpInternalError;;
-
-(* Utility functions *)
-
-let string_of_name =
- function
- Cic.Name s -> s
- | Cic.Anonimous -> "_"
-;;
-
-(* get_nth l n returns the nth element of the list l if it exists or raise *)
-(* a CicPpInternalError if l has less than n elements or n < 1 *)
-let rec get_nth l n =
- match (n,l) with
- (1, he::_) -> he
- | (n, he::tail) when n > 1 -> get_nth tail (n-1)
- | (_,_) -> raise CicPpInternalError
-;;
-
-(* pp t l *)
-(* pretty-prints a term t of cic in an environment l where l is a list of *)
-(* identifier names used to resolve DeBrujin indexes. The head of l is the *)
-(* name associated to the greatest DeBrujin index in t *)
-let rec pp t l =
- let module C = Cic in
- match t with
- C.Rel n ->
- (match get_nth l n with
- C.Name s -> s
- | _ -> raise CicPpInternalError
- )
- | C.Var uri -> UriManager.name_of_uri uri
- | C.Meta n -> "?" ^ (string_of_int n)
- | C.Sort s ->
- (match s with
- C.Prop -> "Prop"
- | C.Set -> "Set"
- | C.Type -> "Type"
- )
- | C.Implicit -> "?"
- | C.Prod (b,s,t) ->
- (match b with
- C.Name n -> "(" ^ n ^ ":" ^ pp s l ^ ")" ^ pp t (b::l)
- | C.Anonimous -> "(" ^ pp s l ^ "->" ^ pp t (b::l) ^ ")"
- )
- | C.Cast (v,t) -> pp v l
- | C.Lambda (b,s,t) ->
- "[" ^ string_of_name b ^ ":" ^ pp s l ^ "]" ^ pp t (b::l)
- | C.Appl li ->
- "(" ^
- (List.fold_right
- (fun x i -> pp x l ^ (match i with "" -> "" | _ -> " ") ^ i)
- li ""
- ) ^ ")"
- | C.Const (uri,_) -> UriManager.name_of_uri uri
- | C.Abst uri -> UriManager.name_of_uri uri
- | C.MutInd (uri,_,n) ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (dl,_,_) ->
- let (name,_,_,_) = get_nth dl (n+1) in
- name
- | _ -> raise CicPpInternalError
- )
- | C.MutConstruct (uri,_,n1,n2) ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (dl,_,_) ->
- let (_,_,_,cons) = get_nth dl (n1+1) in
- let (id,_,_) = get_nth cons n2 in
- id
- | _ -> raise CicPpInternalError
- )
- | C.MutCase (uri,_,n1,ty,te,patterns) ->
- let connames =
- (match CicCache.get_obj uri with
- C.InductiveDefinition (dl,_,_) ->
- let (_,_,_,cons) = get_nth dl (n1+1) in
- List.map (fun (id,_,_) -> id) cons
- | _ -> raise CicPpInternalError
- )
- in
- "\n<" ^ pp ty l ^ ">Cases " ^ pp te l ^ " of " ^
- List.fold_right (fun (x,y) i -> "\n " ^ x ^ " => " ^ pp y l ^ i)
- (List.combine connames patterns) "" ^
- "\nend"
- | C.Fix (no, funs) ->
- let snames = List.map (fun (name,_,_,_) -> name) funs in
- let names = List.rev (List.map (function name -> C.Name name) snames) in
- "\nFix " ^ get_nth snames (no + 1) ^ " {" ^
- List.fold_right
- (fun (name,ind,ty,bo) i -> "\n" ^ name ^ " / " ^ string_of_int ind ^
- " : " ^ pp ty l ^ " := \n" ^
- pp bo (names@l) ^ i)
- funs "" ^
- "}\n"
- | C.CoFix (no,funs) ->
- let snames = List.map (fun (name,_,_) -> name) funs in
- let names = List.rev (List.map (function name -> C.Name name) snames) in
- "\nCoFix " ^ get_nth snames (no + 1) ^ " {" ^
- List.fold_right
- (fun (name,ty,bo) i -> "\n" ^ name ^
- " : " ^ pp ty l ^ " := \n" ^
- pp bo (names@l) ^ i)
- funs "" ^
- "}\n"
-;;
-
-(* ppinductiveType (typename, inductive, arity, cons) names *)
-(* pretty-prints a single inductive definition (typename, inductive, arity, *)
-(* cons) where the cic terms in the inductive definition need to be *)
-(* evaluated in the environment names that is the list of typenames of the *)
-(* mutual inductive definitions defined in the block of mutual inductive *)
-(* definitions to which this one belongs to *)
-let ppinductiveType (typename, inductive, arity, cons) names =
- (if inductive then "\nInductive " else "\nCoInductive ") ^ typename ^ ": " ^
- (*CSC: bug found: was pp arity names ^ " =\n " ^*)
- pp arity [] ^ " =\n " ^
- List.fold_right
- (fun (id,ty,_) i -> id ^ " : " ^ pp ty names ^
- (if i = "" then "\n" else "\n | ") ^ i)
- cons ""
-;;
-
-(* ppobj obj returns a string with describing the cic object obj in a syntax *)
-(* similar to the one used by Coq *)
-let ppobj obj =
- let module C = Cic in
- let module U = UriManager in
- match obj with
- C.Definition (id, t1, t2, params) ->
- "Definition of " ^ id ^
- "(" ^
- List.fold_right
- (fun (_,x) i ->
- List.fold_right
- (fun x i ->
- U.string_of_uri x ^ match i with "" -> "" | i' -> " " ^ i'
- ) x "" ^ match i with "" -> "" | i' -> " " ^ i'
- ) params "" ^ ")" ^
- ":\n" ^ pp t1 [] ^ " : " ^ pp t2 []
- | C.Axiom (id, ty, params) ->
- "Axiom " ^ id ^ "(" ^
- List.fold_right
- (fun (_,x) i ->
- List.fold_right
- (fun x i ->
- U.string_of_uri x ^ match i with "" -> "" | i' -> " " ^ i'
- ) x "" ^ match i with "" -> "" | i' -> " " ^ i'
- ) params "" ^
- "):\n" ^ pp ty []
- | C.Variable (name, ty) ->
- "Variable " ^ name ^ ":\n" ^ pp ty []
- | C.CurrentProof (name, conjectures, value, ty) ->
- "Current Proof:\n" ^
- List.fold_right
- (fun (n, t) i -> "?" ^ (string_of_int n) ^ ": " ^ pp t [] ^ "\n" ^ i)
- conjectures "" ^
- "\n" ^ pp value [] ^ " : " ^ pp ty []
- | C.InductiveDefinition (l, params, nparams) ->
- "Parameters = " ^
- List.fold_right
- (fun (_,x) i ->
- List.fold_right
- (fun x i ->
- U.string_of_uri x ^ match i with "" -> "" | i' -> " " ^ i'
- ) x "" ^ match i with "" -> "" | i' -> " " ^ i'
- ) params "" ^ "\n" ^
- "NParams = " ^ string_of_int nparams ^ "\n" ^
- let names = List.rev (List.map (fun (n,_,_,_) -> C.Name n) l) in
- List.fold_right (fun x i -> ppinductiveType x names ^ i) l ""
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module implements a very simple Coq-like pretty printer that, given *)
-(* an object of cic (internal representation) returns a string describing the *)
-(* object in a syntax similar to that of coq *)
-(* *)
-(******************************************************************************)
-
-(* ppobj obj returns a string with describing the cic object obj in a syntax *)
-(* similar to the one used by Coq *)
-val ppobj : Cic.obj -> string
+++ /dev/null
-exception CicReductionInternalError;;
-exception WrongUriToInductiveDefinition;;
-
-let fdebug = ref 1;;
-let debug t env s =
- let rec debug_aux t i =
- let module C = Cic in
- let module U = UriManager in
- CicPp.ppobj (C.Variable ("DEBUG",
- C.Prod (C.Name "-9", C.Const (U.uri_of_string "cic:/dummy-9",0),
- C.Prod (C.Name "-8", C.Const (U.uri_of_string "cic:/dummy-8",0),
- C.Prod (C.Name "-7", C.Const (U.uri_of_string "cic:/dummy-7",0),
- C.Prod (C.Name "-6", C.Const (U.uri_of_string "cic:/dummy-6",0),
- C.Prod (C.Name "-5", C.Const (U.uri_of_string "cic:/dummy-5",0),
- C.Prod (C.Name "-4", C.Const (U.uri_of_string "cic:/dummy-4",0),
- C.Prod (C.Name "-3", C.Const (U.uri_of_string "cic:/dummy-3",0),
- C.Prod (C.Name "-2", C.Const (U.uri_of_string "cic:/dummy-2",0),
- C.Prod (C.Name "-1", C.Const (U.uri_of_string "cic:/dummy-1",0),
- t
- )
- )
- )
- )
- )
- )
- )
- )
- )
- )) ^ "\n" ^ i
- in
- if !fdebug = 0 then
- begin
- print_endline (s ^ "\n" ^ List.fold_right debug_aux (t::env) "") ;
- flush stdout
- end
-;;
-
-exception Impossible of int;;
-exception ReferenceToDefinition;;
-exception ReferenceToAxiom;;
-exception ReferenceToVariable;;
-exception ReferenceToCurrentProof;;
-exception ReferenceToInductiveDefinition;;
-
-(* takes a well-typed term *)
-let whd =
- let rec whdaux l =
- let module C = Cic in
- let module S = CicSubstitution in
- function
- C.Rel _ as t -> if l = [] then t else C.Appl (t::l)
- | C.Var _ as t -> if l = [] then t else C.Appl (t::l)
- | C.Meta _ as t -> if l = [] then t else C.Appl (t::l)
- | C.Sort _ as t -> t (* l should be empty *)
- | C.Implicit as t -> t
- | C.Cast (te,ty) -> whdaux l te (*CSC E' GIUSTO BUTTARE IL CAST? *)
- | C.Prod _ as t -> t (* l should be empty *)
- | C.Lambda (name,s,t) as t' ->
- (match l with
- [] -> t'
- | he::tl -> whdaux tl (S.subst he t)
- (* when name is Anonimous the substitution should be superfluous *)
- )
- | C.Appl (he::tl) -> whdaux (tl@l) he
- | C.Appl [] -> raise (Impossible 1)
- | C.Const (uri,cookingsno) as t ->
- (match CicCache.get_cooked_obj uri cookingsno with
- C.Definition (_,body,_,_) -> whdaux l body
- | C.Axiom _ -> if l = [] then t else C.Appl (t::l)
- (*CSC: Prossima riga sbagliata: Var punta alle variabili, non Const *)
- | C.Variable _ -> if l = [] then t else C.Appl (t::l)
- | C.CurrentProof (_,_,body,_) -> whdaux l body
- | C.InductiveDefinition _ -> raise ReferenceToInductiveDefinition
- )
- | C.Abst _ as t -> t (*CSC l should be empty ????? *)
- | C.MutInd (uri,_,_) as t -> if l = [] then t else C.Appl (t::l)
- | C.MutConstruct (uri,_,_,_) as t -> if l = [] then t else C.Appl (t::l)
- | C.MutCase (mutind,cookingsno,i,_,term,pl) as t ->
- let decofix =
- function
- C.CoFix (i,fl) as t ->
- let (_,_,body) = List.nth fl i in
- let body' =
- let counter = ref (List.length fl) in
- List.fold_right
- (fun _ -> decr counter ; S.subst (C.CoFix (!counter,fl)))
- fl
- body
- in
- whdaux [] body'
- | C.Appl (C.CoFix (i,fl) :: tl) ->
- let (_,_,body) = List.nth fl i in
- let body' =
- let counter = ref (List.length fl) in
- List.fold_right
- (fun _ -> decr counter ; S.subst (C.CoFix (!counter,fl)))
- fl
- body
- in
- whdaux tl body'
- | t -> t
- in
- (match decofix (whdaux [] term) with
- C.MutConstruct (_,_,_,j) -> whdaux l (List.nth pl (j-1))
- | C.Appl (C.MutConstruct (_,_,_,j) :: tl) ->
- let (arity, r, num_ingredients) =
- match CicCache.get_obj mutind with
- C.InductiveDefinition (tl,ingredients,r) ->
- let (_,_,arity,_) = List.nth tl i
- and num_ingredients =
- List.fold_right
- (fun (k,l) i ->
- if k < cookingsno then i + List.length l else i
- ) ingredients 0
- in
- (arity,r,num_ingredients)
- | _ -> raise WrongUriToInductiveDefinition
- in
- let ts =
- let num_to_eat = r + num_ingredients in
- let rec eat_first =
- function
- (0,l) -> l
- | (n,he::tl) when n > 0 -> eat_first (n - 1, tl)
- | _ -> raise (Impossible 5)
- in
- eat_first (num_to_eat,tl)
- in
- whdaux (ts@l) (List.nth pl (j-1))
- | C.Abst _| C.Cast _ | C.Implicit ->
- raise (Impossible 2) (* we don't trust our whd ;-) *)
- | _ -> t
- )
- | C.Fix (i,fl) as t ->
- let (_,recindex,_,body) = List.nth fl i in
- let recparam =
- try
- Some (List.nth l recindex)
- with
- _ -> None
- in
- (match recparam with
- Some recparam ->
- (match whdaux [] recparam with
- C.MutConstruct _
- | C.Appl ((C.MutConstruct _)::_) ->
- let body' =
- let counter = ref (List.length fl) in
- List.fold_right
- (fun _ -> decr counter ; S.subst (C.Fix (!counter,fl)))
- fl
- body
- in
- (* Possible optimization: substituting whd recparam in l *)
- whdaux l body'
- | _ -> if l = [] then t else C.Appl (t::l)
- )
- | None -> if l = [] then t else C.Appl (t::l)
- )
- | C.CoFix (i,fl) as t ->
- (*CSC vecchio codice
- let (_,_,body) = List.nth fl i in
- let body' =
- let counter = ref (List.length fl) in
- List.fold_right
- (fun _ -> decr counter ; S.subst (C.CoFix (!counter,fl)))
- fl
- body
- in
- whdaux l body'
- *)
- if l = [] then t else C.Appl (t::l)
- in
- whdaux []
-;;
-
-(* t1, t2 must be well-typed *)
-let are_convertible t1 t2 =
- let module U = UriManager in
- let rec aux t1 t2 =
- debug t1 [t2] "PREWHD";
- (* this trivial euristic cuts down the total time of about five times ;-) *)
- (* this because most of the time t1 and t2 are "sintactically" the same *)
- if t1 = t2 then
- true
- else
- begin
- let module C = Cic in
- let t1' = whd t1
- and t2' = whd t2 in
- debug t1' [t2'] "POSTWHD";
- (*if !fdebug = 0 then ignore(Unix.system "read" );*)
- match (t1',t2') with
- (C.Rel n1, C.Rel n2) -> n1 = n2
- | (C.Var uri1, C.Var uri2) -> U.eq uri1 uri2
- | (C.Meta n1, C.Meta n2) -> n1 = n2
- | (C.Sort s1, C.Sort s2) -> true (*CSC da finire con gli universi *)
- | (C.Prod (_,s1,t1), C.Prod(_,s2,t2)) ->
- aux s1 s2 && aux t1 t2
- | (C.Lambda (_,s1,t1), C.Lambda(_,s2,t2)) ->
- aux s1 s2 && aux t1 t2
- | (C.Appl l1, C.Appl l2) ->
- (try
- List.fold_right2 (fun x y b -> aux x y && b) l1 l2 true
- with
- Invalid_argument _ -> false
- )
- | (C.Const (uri1,_), C.Const (uri2,_)) ->
- (*CSC: questo commento e' chiaro o delirante? Io lo sto scrivendo *)
- (*CSC: mentre sono delirante, quindi ... *)
- (* WARNING: it is really important that the two cookingsno are not *)
- (* checked for equality. This allows not to cook an object with no *)
- (* ingredients only to update the cookingsno. E.g: if a term t has *)
- (* a reference to a term t1 which does not depend on any variable *)
- (* and t1 depends on a term t2 (that can't depend on any variable *)
- (* because of t1), then t1 cooked at every level could be the same *)
- (* as t1 cooked at level 0. Doing so, t2 will be extended in t *)
- (* with cookingsno 0 and not 2. But this will not cause any trouble*)
- (* if here we don't check that the two cookingsno are equal. *)
- U.eq uri1 uri2
- | (C.MutInd (uri1,k1,i1), C.MutInd (uri2,k2,i2)) ->
- (* WARNIG: see the previous warning *)
- U.eq uri1 uri2 && i1 = i2
- | (C.MutConstruct (uri1,_,i1,j1), C.MutConstruct (uri2,_,i2,j2)) ->
- (* WARNIG: see the previous warning *)
- U.eq uri1 uri2 && i1 = i2 && j1 = j2
- | (C.MutCase (uri1,_,i1,outtype1,term1,pl1),
- C.MutCase (uri2,_,i2,outtype2,term2,pl2)) ->
- (* WARNIG: see the previous warning *)
- (* aux outtype1 outtype2 should be true if aux pl1 pl2 *)
- U.eq uri1 uri2 && i1 = i2 && aux outtype1 outtype2 &&
- aux term1 term2 &&
- List.fold_right2 (fun x y b -> b && aux x y) pl1 pl2 true
- | (C.Fix (i1,fl1), C.Fix (i2,fl2)) ->
- i1 = i2 &&
- List.fold_right2
- (fun (_,recindex1,ty1,bo1) (_,recindex2,ty2,bo2) b ->
- b && recindex1 = recindex2 && aux ty1 ty2 && aux bo1 bo2)
- fl1 fl2 true
- | (C.CoFix (i1,fl1), C.CoFix (i2,fl2)) ->
- i1 = i2 &&
- List.fold_right2
- (fun (_,ty1,bo1) (_,ty2,bo2) b ->
- b && aux ty1 ty2 && aux bo1 bo2)
- fl1 fl2 true
- | (C.Abst _, _) | (_, C.Abst _) | (C.Cast _, _) | (_, C.Cast _)
- | (C.Implicit, _) | (_, C.Implicit) ->
- raise (Impossible 3) (* we don't trust our whd ;-) *)
- | (_,_) -> false
- end
- in
- aux t1 t2
-;;
+++ /dev/null
-exception WrongUriToInductiveDefinition
-exception ReferenceToDefinition
-exception ReferenceToAxiom
-exception ReferenceToVariable
-exception ReferenceToCurrentProof
-exception ReferenceToInductiveDefinition
-val fdebug : int ref
-val whd : Cic.term -> Cic.term
-val are_convertible : Cic.term -> Cic.term -> bool
+++ /dev/null
-let lift n =
- let rec liftaux k =
- let module C = Cic in
- function
- C.Rel m ->
- if m < k then
- C.Rel m
- else
- C.Rel (m + n)
- | C.Var _ as t -> t
- | C.Meta _ as t -> t
- | C.Sort _ as t -> t
- | C.Implicit as t -> t
- | C.Cast (te,ty) -> C.Cast (liftaux k te, liftaux k ty)
- | C.Prod (n,s,t) -> C.Prod (n, liftaux k s, liftaux (k+1) t)
- | C.Lambda (n,s,t) -> C.Lambda (n, liftaux k s, liftaux (k+1) t)
- | C.Appl l -> C.Appl (List.map (liftaux k) l)
- | C.Const _ as t -> t
- | C.Abst _ as t -> t
- | C.MutInd _ as t -> t
- | C.MutConstruct _ as t -> t
- | C.MutCase (sp,cookingsno,i,outty,t,pl) ->
- C.MutCase (sp, cookingsno, i, liftaux k outty, liftaux k t,
- List.map (liftaux k) pl)
- | C.Fix (i, fl) ->
- let len = List.length fl in
- let liftedfl =
- List.map
- (fun (name, i, ty, bo) -> (name, i, liftaux k ty, liftaux (k+len) bo))
- fl
- in
- C.Fix (i, liftedfl)
- | C.CoFix (i, fl) ->
- let len = List.length fl in
- let liftedfl =
- List.map
- (fun (name, ty, bo) -> (name, liftaux k ty, liftaux (k+len) bo))
- fl
- in
- C.CoFix (i, liftedfl)
- in
- liftaux 1
-;;
-
-let subst arg =
- let rec substaux k =
- let module C = Cic in
- function
- C.Rel n as t ->
- (match n with
- n when n = k -> lift (k - 1) arg
- | n when n < k -> t
- | _ -> C.Rel (n - 1)
- )
- | C.Var _ as t -> t
- | C.Meta _ as t -> t
- | C.Sort _ as t -> t
- | C.Implicit as t -> t
- | C.Cast (te,ty) -> C.Cast (substaux k te, substaux k ty) (*CSC ??? *)
- | C.Prod (n,s,t) -> C.Prod (n, substaux k s, substaux (k + 1) t)
- | C.Lambda (n,s,t) -> C.Lambda (n, substaux k s, substaux (k + 1) t)
- | C.Appl l -> C.Appl (List.map (substaux k) l)
- | C.Const _ as t -> t
- | C.Abst _ as t -> t
- | C.MutInd _ as t -> t
- | C.MutConstruct _ as t -> t
- | C.MutCase (sp,cookingsno,i,outt,t,pl) ->
- C.MutCase (sp,cookingsno,i,substaux k outt, substaux k t,
- List.map (substaux k) pl)
- | C.Fix (i,fl) ->
- let len = List.length fl in
- let substitutedfl =
- List.map
- (fun (name,i,ty,bo) -> (name, i, substaux k ty, substaux (k+len) bo))
- fl
- in
- C.Fix (i, substitutedfl)
- | C.CoFix (i,fl) ->
- let len = List.length fl in
- let substitutedfl =
- List.map
- (fun (name,ty,bo) -> (name, substaux k ty, substaux (k+len) bo))
- fl
- in
- C.CoFix (i, substitutedfl)
- in
- substaux 1
-;;
-
-let undebrujin_inductive_def uri =
- function
- Cic.InductiveDefinition (dl,params,n_ind_params) ->
- let dl' =
- List.map
- (fun (name,inductive,arity,constructors) ->
- let constructors' =
- List.map
- (fun (name,ty,r) ->
- let ty' =
- let counter = ref (List.length dl) in
- List.fold_right
- (fun _ ->
- decr counter ;
- subst (Cic.MutInd (uri,0,!counter))
- ) dl ty
- in
- (name,ty',r)
- ) constructors
- in
- (name,inductive,arity,constructors')
- ) dl
- in
- Cic.InductiveDefinition (dl', params, n_ind_params)
- | obj -> obj
-;;
+++ /dev/null
-val lift : int -> Cic.term -> Cic.term
-val subst : Cic.term -> Cic.term -> Cic.term
-val undebrujin_inductive_def : UriManager.uri -> Cic.obj -> Cic.obj
+++ /dev/null
-exception NotImplemented;;
-exception Impossible;;
-exception NotWellTyped of string;;
-exception WrongUriToConstant of string;;
-exception WrongUriToVariable of string;;
-exception WrongUriToMutualInductiveDefinitions of string;;
-exception ListTooShort;;
-exception NotPositiveOccurrences of string;;
-exception NotWellFormedTypeOfInductiveConstructor of string;;
-exception WrongRequiredArgument of string;;
-
-let fdebug = ref 0;;
-let debug t env =
- let rec debug_aux t i =
- let module C = Cic in
- let module U = UriManager in
- CicPp.ppobj (C.Variable ("DEBUG",
- C.Prod (C.Name "-15", C.Const (U.uri_of_string "cic:/dummy-15",0),
- C.Prod (C.Name "-14", C.Const (U.uri_of_string "cic:/dummy-14",0),
- C.Prod (C.Name "-13", C.Const (U.uri_of_string "cic:/dummy-13",0),
- C.Prod (C.Name "-12", C.Const (U.uri_of_string "cic:/dummy-12",0),
- C.Prod (C.Name "-11", C.Const (U.uri_of_string "cic:/dummy-11",0),
- C.Prod (C.Name "-10", C.Const (U.uri_of_string "cic:/dummy-10",0),
- C.Prod (C.Name "-9", C.Const (U.uri_of_string "cic:/dummy-9",0),
- C.Prod (C.Name "-8", C.Const (U.uri_of_string "cic:/dummy-8",0),
- C.Prod (C.Name "-7", C.Const (U.uri_of_string "cic:/dummy-7",0),
- C.Prod (C.Name "-6", C.Const (U.uri_of_string "cic:/dummy-6",0),
- C.Prod (C.Name "-5", C.Const (U.uri_of_string "cic:/dummy-5",0),
- C.Prod (C.Name "-4", C.Const (U.uri_of_string "cic:/dummy-4",0),
- C.Prod (C.Name "-3", C.Const (U.uri_of_string "cic:/dummy-3",0),
- C.Prod (C.Name "-2", C.Const (U.uri_of_string "cic:/dummy-2",0),
- C.Prod (C.Name "-1", C.Const (U.uri_of_string "cic:/dummy-1",0),
- t
- )
- )
- )
- )
- )
- )
- )
- )
- )))))))
- )) ^ "\n" ^ i
- in
- if !fdebug = 0 then
- raise (NotWellTyped ("\n" ^ List.fold_right debug_aux (t::env) ""))
- (*print_endline ("\n" ^ List.fold_right debug_aux (t::env) "") ; flush stdout*)
-;;
-
-let rec split l n =
- match (l,n) with
- (l,0) -> ([], l)
- | (he::tl, n) -> let (l1,l2) = split tl (n-1) in (he::l1,l2)
- | (_,_) -> raise ListTooShort
-;;
-
-exception CicCacheError;;
-
-let rec cooked_type_of_constant uri cookingsno =
- let module C = Cic in
- let module R = CicReduction in
- let module U = UriManager in
- let cobj =
- match CicCache.is_type_checked uri cookingsno with
- CicCache.CheckedObj cobj -> cobj
- | CicCache.UncheckedObj uobj ->
- (* let's typecheck the uncooked obj *)
- (match uobj with
- C.Definition (_,te,ty,_) ->
- let _ = type_of ty in
- if not (R.are_convertible (type_of te) ty) then
- raise (NotWellTyped ("Constant " ^ (U.string_of_uri uri)))
- | C.Axiom (_,ty,_) ->
- (* only to check that ty is well-typed *)
- let _ = type_of ty in ()
- | C.CurrentProof (_,_,te,ty) ->
- let _ = type_of ty in
- if not (R.are_convertible (type_of te) ty) then
- raise (NotWellTyped ("CurrentProof" ^ (U.string_of_uri uri)))
- | _ -> raise (WrongUriToConstant (U.string_of_uri uri))
- ) ;
- CicCache.set_type_checking_info uri ;
- match CicCache.is_type_checked uri cookingsno with
- CicCache.CheckedObj cobj -> cobj
- | CicCache.UncheckedObj _ -> raise CicCacheError
- in
- match cobj with
- C.Definition (_,_,ty,_) -> ty
- | C.Axiom (_,ty,_) -> ty
- | C.CurrentProof (_,_,_,ty) -> ty
- | _ -> raise (WrongUriToConstant (U.string_of_uri uri))
-
-and type_of_variable uri =
- let module C = Cic in
- let module R = CicReduction in
- (* 0 because a variable is never cooked => no partial cooking at one level *)
- match CicCache.is_type_checked uri 0 with
- CicCache.CheckedObj (C.Variable (_,ty)) -> ty
- | CicCache.UncheckedObj (C.Variable (_,ty)) ->
- (* only to check that ty is well-typed *)
- let _ = type_of ty in
- CicCache.set_type_checking_info uri ;
- ty
- | _ -> raise (WrongUriToVariable (UriManager.string_of_uri uri))
-
-and does_not_occur n nn te =
- let module C = Cic in
- (*CSC: whd sembra essere superflua perche' un caso in cui l'occorrenza *)
- (*CSC: venga mangiata durante la whd sembra presentare problemi di *)
- (*CSC: universi *)
- match CicReduction.whd te with
- C.Rel m when m > n && m <= nn -> false
- | C.Rel _
- | C.Var _
- | C.Meta _
- | C.Sort _
- | C.Implicit -> true
- | C.Cast (te,ty) -> does_not_occur n nn te && does_not_occur n nn ty
- | C.Prod (_,so,dest) ->
- does_not_occur n nn so && does_not_occur (n + 1) (nn + 1) dest
- | C.Lambda (_,so,dest) ->
- does_not_occur n nn so && does_not_occur (n + 1) (nn + 1) dest
- | C.Appl l ->
- List.fold_right (fun x i -> i && does_not_occur n nn x) l true
- | C.Const _
- | C.Abst _
- | C.MutInd _
- | C.MutConstruct _ -> true
- | C.MutCase (_,_,_,out,te,pl) ->
- does_not_occur n nn out && does_not_occur n nn te &&
- List.fold_right (fun x i -> i && does_not_occur n nn x) pl true
- | C.Fix (_,fl) ->
- let len = List.length fl in
- let n_plus_len = n + len in
- let nn_plus_len = nn + len in
- List.fold_right
- (fun (_,_,ty,bo) i ->
- i && does_not_occur n_plus_len nn_plus_len ty &&
- does_not_occur n_plus_len nn_plus_len bo
- ) fl true
- | C.CoFix (_,fl) ->
- let len = List.length fl in
- let n_plus_len = n + len in
- let nn_plus_len = nn + len in
- List.fold_right
- (fun (_,ty,bo) i ->
- i && does_not_occur n_plus_len nn_plus_len ty &&
- does_not_occur n_plus_len nn_plus_len bo
- ) fl true
-
-(*CSC l'indice x dei tipi induttivi e' t.c. n < x <= nn *)
-(*CSC questa funzione e' simile alla are_all_occurrences_positive, ma fa *)
-(*CSC dei controlli leggermente diversi. Viene invocata solamente dalla *)
-(*CSC strictly_positive *)
-(*CSC definizione (giusta???) tratta dalla mail di Hugo ;-) *)
-and weakly_positive n nn uri te =
- let module C = Cic in
- (*CSC mettere in cicSubstitution *)
- let rec subst_inductive_type_with_dummy_rel =
- function
- C.MutInd (uri',_,0) when UriManager.eq uri' uri ->
- C.Rel 0 (* dummy rel *)
- | C.Appl ((C.MutInd (uri',_,0))::tl) when UriManager.eq uri' uri ->
- C.Rel 0 (* dummy rel *)
- | C.Cast (te,ty) -> subst_inductive_type_with_dummy_rel te
- | C.Prod (name,so,ta) ->
- C.Prod (name, subst_inductive_type_with_dummy_rel so,
- subst_inductive_type_with_dummy_rel ta)
- | C.Lambda (name,so,ta) ->
- C.Lambda (name, subst_inductive_type_with_dummy_rel so,
- subst_inductive_type_with_dummy_rel ta)
- | C.Appl tl ->
- C.Appl (List.map subst_inductive_type_with_dummy_rel tl)
- | C.MutCase (uri,cookingsno,i,outtype,term,pl) ->
- C.MutCase (uri,cookingsno,i,
- subst_inductive_type_with_dummy_rel outtype,
- subst_inductive_type_with_dummy_rel term,
- List.map subst_inductive_type_with_dummy_rel pl)
- | C.Fix (i,fl) ->
- C.Fix (i,List.map (fun (name,i,ty,bo) -> (name,i,
- subst_inductive_type_with_dummy_rel ty,
- subst_inductive_type_with_dummy_rel bo)) fl)
- | C.CoFix (i,fl) ->
- C.CoFix (i,List.map (fun (name,ty,bo) -> (name,
- subst_inductive_type_with_dummy_rel ty,
- subst_inductive_type_with_dummy_rel bo)) fl)
- | t -> t
- in
- match CicReduction.whd te with
- C.Appl ((C.MutInd (uri',_,0))::tl) when UriManager.eq uri' uri -> true
- | C.MutInd (uri',_,0) when UriManager.eq uri' uri -> true
- | C.Prod (C.Anonimous,source,dest) ->
- strictly_positive n nn (subst_inductive_type_with_dummy_rel source) &&
- weakly_positive (n + 1) (nn + 1) uri dest
- | C.Prod (name,source,dest) when does_not_occur 0 n dest ->
- (* dummy abstraction, so we behave as in the anonimous case *)
- strictly_positive n nn (subst_inductive_type_with_dummy_rel source) &&
- weakly_positive (n + 1) (nn + 1) uri dest
- | C.Prod (_,source,dest) ->
- does_not_occur n nn (subst_inductive_type_with_dummy_rel source) &&
- weakly_positive (n + 1) (nn + 1) uri dest
- | _ -> raise (NotWellFormedTypeOfInductiveConstructor ("Guess where the error is ;-)"))
-
-(* instantiate_parameters ps (x1:T1)...(xn:Tn)C *)
-(* returns ((x_|ps|:T_|ps|)...(xn:Tn)C){ps_1 / x1 ; ... ; ps_|ps| / x_|ps|} *)
-and instantiate_parameters params c =
- let module C = Cic in
- match (c,params) with
- (c,[]) -> c
- | (C.Prod (_,_,ta), he::tl) ->
- instantiate_parameters tl
- (CicSubstitution.subst he ta)
- | (C.Cast (te,_), _) -> instantiate_parameters params te
- | (t,l) -> raise Impossible
-
-and strictly_positive n nn te =
- let module C = Cic in
- let module U = UriManager in
- match CicReduction.whd te with
- C.Rel _ -> true
- | C.Cast (te,ty) ->
- (*CSC: bisogna controllare ty????*)
- strictly_positive n nn te
- | C.Prod (_,so,ta) ->
- does_not_occur n nn so &&
- strictly_positive (n+1) (nn+1) ta
- | C.Appl ((C.Rel m)::tl) when m > n && m <= nn ->
- List.fold_right (fun x i -> i && does_not_occur n nn x) tl true
- | C.Appl ((C.MutInd (uri,_,i))::tl) ->
- let (ok,paramsno,cl) =
- match CicCache.get_obj uri with
- C.InductiveDefinition (tl,_,paramsno) ->
- let (_,_,_,cl) = List.nth tl i in
- (List.length tl = 1, paramsno, cl)
- | _ -> raise(WrongUriToMutualInductiveDefinitions(U.string_of_uri uri))
- in
- let (params,arguments) = split tl paramsno in
- let lifted_params = List.map (CicSubstitution.lift 1) params in
- let cl' =
- List.map (fun (_,te,_) -> instantiate_parameters lifted_params te) cl
- in
- ok &&
- List.fold_right
- (fun x i -> i && does_not_occur n nn x)
- arguments true &&
- (*CSC: MEGAPATCH3 (sara' quella giusta?)*)
- List.fold_right
- (fun x i ->
- i &&
- weakly_positive (n+1) (nn+1) uri x
- ) cl' true
- | C.MutInd (uri,_,i) ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (tl,_,_) ->
- List.length tl = 1
- | _ -> raise (WrongUriToMutualInductiveDefinitions(U.string_of_uri uri))
- )
- | t -> does_not_occur n nn t
-
-(*CSC l'indice x dei tipi induttivi e' t.c. n < x <= nn *)
-and are_all_occurrences_positive uri indparamsno i n nn te =
- let module C = Cic in
- match CicReduction.whd te with
- C.Appl ((C.Rel m)::tl) when m = i ->
- (*CSC: riscrivere fermandosi a 0 *)
- (* let's check if the inductive type is applied at least to *)
- (* indparamsno parameters *)
- let last =
- List.fold_left
- (fun k x ->
- if k = 0 then 0
- else
- match CicReduction.whd x with
- C.Rel m when m = n - (indparamsno - k) -> k - 1
- | _ -> raise (WrongRequiredArgument (UriManager.string_of_uri uri))
- ) indparamsno tl
- in
- if last = 0 then
- List.fold_right (fun x i -> i && does_not_occur n nn x) tl true
- else
- raise (WrongRequiredArgument (UriManager.string_of_uri uri))
- | C.Rel m when m = i ->
- if indparamsno = 0 then
- true
- else
- raise (WrongRequiredArgument (UriManager.string_of_uri uri))
- | C.Prod (C.Anonimous,source,dest) ->
- strictly_positive n nn source &&
- are_all_occurrences_positive uri indparamsno (i+1) (n + 1) (nn + 1) dest
- | C.Prod (name,source,dest) when does_not_occur 0 n dest ->
- (* dummy abstraction, so we behave as in the anonimous case *)
- strictly_positive n nn source &&
- are_all_occurrences_positive uri indparamsno (i+1) (n + 1) (nn + 1) dest
- | C.Prod (_,source,dest) ->
- does_not_occur n nn source &&
- are_all_occurrences_positive uri indparamsno (i+1) (n + 1) (nn + 1) dest
- | _ -> raise (NotWellFormedTypeOfInductiveConstructor (UriManager.string_of_uri uri))
-
-(*CSC: cambiare il nome, torna unit! *)
-and cooked_mutual_inductive_defs uri =
- let module U = UriManager in
- function
- Cic.InductiveDefinition (itl, _, indparamsno) ->
- (* let's check if the arity of the inductive types are well *)
- (* formed *)
- List.iter (fun (_,_,x,_) -> let _ = type_of x in ()) itl ;
-
- (* let's check if the types of the inductive constructors *)
- (* are well formed. *)
- (* In order not to use type_of_aux we put the types of the *)
- (* mutual inductive types at the head of the types of the *)
- (* constructors using Prods *)
- (*CSC: piccola??? inefficienza *)
- let len = List.length itl in
- let _ =
- List.fold_right
- (fun (_,_,_,cl) i ->
- List.iter
- (fun (name,te,r) ->
- let augmented_term =
- List.fold_right
- (fun (name,_,ty,_) i -> Cic.Prod (Cic.Name name, ty, i))
- itl te
- in
- let _ = type_of augmented_term in
- (* let's check also the positivity conditions *)
- if not (are_all_occurrences_positive uri indparamsno i 0 len te)
- then
- raise (NotPositiveOccurrences (U.string_of_uri uri))
- else
- match !r with
- Some _ -> raise Impossible
- | None -> r := Some (recursive_args 0 len te)
- ) cl ;
- (i + 1)
- ) itl 1
- in
- ()
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions (U.string_of_uri uri))
-
-and cooked_type_of_mutual_inductive_defs uri cookingsno i =
- let module C = Cic in
- let module R = CicReduction in
- let module U = UriManager in
- let cobj =
- match CicCache.is_type_checked uri cookingsno with
- CicCache.CheckedObj cobj -> cobj
- | CicCache.UncheckedObj uobj ->
- cooked_mutual_inductive_defs uri uobj ;
- CicCache.set_type_checking_info uri ;
- (match CicCache.is_type_checked uri cookingsno with
- CicCache.CheckedObj cobj -> cobj
- | CicCache.UncheckedObj _ -> raise CicCacheError
- )
- in
- match cobj with
- C.InductiveDefinition (dl,_,_) ->
- let (_,_,arity,_) = List.nth dl i in
- arity
- | _ -> raise (WrongUriToMutualInductiveDefinitions (U.string_of_uri uri))
-
-and cooked_type_of_mutual_inductive_constr uri cookingsno i j =
- let module C = Cic in
- let module R = CicReduction in
- let module U = UriManager in
- let cobj =
- match CicCache.is_type_checked uri cookingsno with
- CicCache.CheckedObj cobj -> cobj
- | CicCache.UncheckedObj uobj ->
- cooked_mutual_inductive_defs uri uobj ;
- CicCache.set_type_checking_info uri ;
- (match CicCache.is_type_checked uri cookingsno with
- CicCache.CheckedObj cobj -> cobj
- | CicCache.UncheckedObj _ -> raise CicCacheError
- )
- in
- match cobj with
- C.InductiveDefinition (dl,_,_) ->
- let (_,_,_,cl) = List.nth dl i in
- let (_,ty,_) = List.nth cl (j-1) in
- ty
- | _ -> raise (WrongUriToMutualInductiveDefinitions (U.string_of_uri uri))
-
-and recursive_args n nn te =
- let module C = Cic in
- match CicReduction.whd te with
- C.Rel _ -> []
- | C.Var _
- | C.Meta _
- | C.Sort _
- | C.Implicit
- | C.Cast _ (*CSC ??? *) -> raise Impossible (* due to type-checking *)
- | C.Prod (_,so,de) ->
- (not (does_not_occur n nn so))::(recursive_args (n+1) (nn + 1) de)
- | C.Lambda _ -> raise Impossible (* due to type-checking *)
- | C.Appl _ -> []
- | C.Const _
- | C.Abst _ -> raise Impossible
- | C.MutInd _
- | C.MutConstruct _
- | C.MutCase _
- | C.Fix _
- | C.CoFix _ -> raise Impossible (* due to type-checking *)
-
-and get_new_safes p c rl safes n nn x =
- let module C = Cic in
- let module U = UriManager in
- let module R = CicReduction in
- match (R.whd c, R.whd p, rl) with
- (C.Prod (_,_,ta1), C.Lambda (_,_,ta2), b::tl) ->
- (* we are sure that the two sources are convertible because we *)
- (* have just checked this. So let's go along ... *)
- let safes' =
- List.map (fun x -> x + 1) safes
- in
- let safes'' =
- if b then 1::safes' else safes'
- in
- get_new_safes ta2 ta1 tl safes'' (n+1) (nn+1) (x+1)
- | (C.MutInd _, e, []) -> (e,safes,n,nn,x)
- | (C.Appl _, e, []) -> (e,safes,n,nn,x)
- | (_,_,_) -> raise Impossible
-
-and eat_prods n te =
- let module C = Cic in
- let module R = CicReduction in
- match (n, R.whd te) with
- (0, _) -> te
- | (n, C.Prod (_,_,ta)) when n > 0 -> eat_prods (n - 1) ta
- | (_, _) -> raise Impossible
-
-and eat_lambdas n te =
- let module C = Cic in
- let module R = CicReduction in
- match (n, R.whd te) with
- (0, _) -> (te, 0)
- | (n, C.Lambda (_,_,ta)) when n > 0 ->
- let (te, k) = eat_lambdas (n - 1) ta in
- (te, k + 1)
- | (_, _) -> raise Impossible
-
-(*CSC: Tutto quello che segue e' l'intuzione di luca ;-) *)
-and check_is_really_smaller_arg n nn kl x safes te =
- (*CSC: forse la whd si puo' fare solo quando serve veramente. *)
- (*CSC: cfr guarded_by_destructors *)
- let module C = Cic in
- let module U = UriManager in
- match CicReduction.whd te with
- C.Rel m when List.mem m safes -> true
- | C.Rel _ -> false
- | C.Var _
- | C.Meta _
- | C.Sort _
- | C.Implicit
- | C.Cast _
-(* | C.Cast (te,ty) ->
- check_is_really_smaller_arg n nn kl x safes te &&
- check_is_really_smaller_arg n nn kl x safes ty*)
-(* | C.Prod (_,so,ta) ->
- check_is_really_smaller_arg n nn kl x safes so &&
- check_is_really_smaller_arg (n+1) (nn+1) kl (x+1)
- (List.map (fun x -> x + 1) safes) ta*)
- | C.Prod _ -> raise Impossible
- | C.Lambda (_,so,ta) ->
- check_is_really_smaller_arg n nn kl x safes so &&
- check_is_really_smaller_arg (n+1) (nn+1) kl (x+1)
- (List.map (fun x -> x + 1) safes) ta
- | C.Appl (he::_) ->
- (*CSC: sulla coda ci vogliono dei controlli? secondo noi no, ma *)
- (*CSC: solo perche' non abbiamo trovato controesempi *)
- check_is_really_smaller_arg n nn kl x safes he
- | C.Appl [] -> raise Impossible
- | C.Const _
- | C.Abst _
- | C.MutInd _ -> raise Impossible
- | C.MutConstruct _ -> false
- | C.MutCase (uri,_,i,outtype,term,pl) ->
- (match term with
- C.Rel m when List.mem m safes || m = x ->
- let (isinductive,paramsno,cl) =
- match CicCache.get_obj uri with
- C.InductiveDefinition (tl,_,paramsno) ->
- let (_,isinductive,_,cl) = List.nth tl i in
- let cl' =
- List.map (fun (id,ty,r) -> (id, eat_prods paramsno ty, r)) cl
- in
- (isinductive,paramsno,cl')
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions(U.string_of_uri uri))
- in
- if not isinductive then
- List.fold_right
- (fun p i -> i && check_is_really_smaller_arg n nn kl x safes p)
- pl true
- else
- List.fold_right
- (fun (p,(_,c,rl)) i ->
- let rl' =
- match !rl with
- Some rl' ->
- let (_,rl'') = split rl' paramsno in
- rl''
- | None -> raise Impossible
- in
- let (e,safes',n',nn',x') =
- get_new_safes p c rl' safes n nn x
- in
- i &&
- check_is_really_smaller_arg n' nn' kl x' safes' e
- ) (List.combine pl cl) true
- | C.Appl ((C.Rel m)::tl) when List.mem m safes || m = x ->
- let (isinductive,paramsno,cl) =
- match CicCache.get_obj uri with
- C.InductiveDefinition (tl,_,paramsno) ->
- let (_,isinductive,_,cl) = List.nth tl i in
- let cl' =
- List.map (fun (id,ty,r) -> (id, eat_prods paramsno ty, r)) cl
- in
- (isinductive,paramsno,cl')
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions(U.string_of_uri uri))
- in
- if not isinductive then
- List.fold_right
- (fun p i -> i && check_is_really_smaller_arg n nn kl x safes p)
- pl true
- else
- (*CSC: supponiamo come prima che nessun controllo sia necessario*)
- (*CSC: sugli argomenti di una applicazione *)
- List.fold_right
- (fun (p,(_,c,rl)) i ->
- let rl' =
- match !rl with
- Some rl' ->
- let (_,rl'') = split rl' paramsno in
- rl''
- | None -> raise Impossible
- in
- let (e, safes',n',nn',x') =
- get_new_safes p c rl' safes n nn x
- in
- i &&
- check_is_really_smaller_arg n' nn' kl x' safes' e
- ) (List.combine pl cl) true
- | _ ->
- List.fold_right
- (fun p i -> i && check_is_really_smaller_arg n nn kl x safes p)
- pl true
- )
- | C.Fix (_, fl) ->
- let len = List.length fl in
- let n_plus_len = n + len
- and nn_plus_len = nn + len
- and x_plus_len = x + len
- and safes' = List.map (fun x -> x + len) safes in
- List.fold_right
- (fun (_,_,ty,bo) i ->
- i &&
- check_is_really_smaller_arg n_plus_len nn_plus_len kl x_plus_len
- safes' bo
- ) fl true
- | C.CoFix (_, fl) ->
- let len = List.length fl in
- let n_plus_len = n + len
- and nn_plus_len = nn + len
- and x_plus_len = x + len
- and safes' = List.map (fun x -> x + len) safes in
- List.fold_right
- (fun (_,ty,bo) i ->
- i &&
- check_is_really_smaller_arg n_plus_len nn_plus_len kl x_plus_len
- safes' bo
- ) fl true
-
-and guarded_by_destructors n nn kl x safes =
- let module C = Cic in
- let module U = UriManager in
- function
- C.Rel m when m > n && m <= nn -> false
- | C.Rel _
- | C.Var _
- | C.Meta _
- | C.Sort _
- | C.Implicit -> true
- | C.Cast (te,ty) ->
- guarded_by_destructors n nn kl x safes te &&
- guarded_by_destructors n nn kl x safes ty
- | C.Prod (_,so,ta) ->
- guarded_by_destructors n nn kl x safes so &&
- guarded_by_destructors (n+1) (nn+1) kl (x+1)
- (List.map (fun x -> x + 1) safes) ta
- | C.Lambda (_,so,ta) ->
- guarded_by_destructors n nn kl x safes so &&
- guarded_by_destructors (n+1) (nn+1) kl (x+1)
- (List.map (fun x -> x + 1) safes) ta
- | C.Appl ((C.Rel m)::tl) when m > n && m <= nn ->
- let k = List.nth kl (m - n - 1) in
- if not (List.length tl > k) then false
- else
- List.fold_right
- (fun param i ->
- i && guarded_by_destructors n nn kl x safes param
- ) tl true &&
- check_is_really_smaller_arg n nn kl x safes (List.nth tl k)
- | C.Appl tl ->
- List.fold_right (fun t i -> i && guarded_by_destructors n nn kl x safes t)
- tl true
- | C.Const _
- | C.Abst _
- | C.MutInd _
- | C.MutConstruct _ -> true
- | C.MutCase (uri,_,i,outtype,term,pl) ->
- (match term with
- C.Rel m when List.mem m safes || m = x ->
- let (isinductive,paramsno,cl) =
- match CicCache.get_obj uri with
- C.InductiveDefinition (tl,_,paramsno) ->
- let (_,isinductive,_,cl) = List.nth tl i in
- let cl' =
- List.map (fun (id,ty,r) -> (id, eat_prods paramsno ty, r)) cl
- in
- (isinductive,paramsno,cl')
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions(U.string_of_uri uri))
- in
- if not isinductive then
- guarded_by_destructors n nn kl x safes outtype &&
- guarded_by_destructors n nn kl x safes term &&
- (*CSC: manca ??? il controllo sul tipo di term? *)
- List.fold_right
- (fun p i -> i && guarded_by_destructors n nn kl x safes p)
- pl true
- else
- guarded_by_destructors n nn kl x safes outtype &&
- (*CSC: manca ??? il controllo sul tipo di term? *)
- List.fold_right
- (fun (p,(_,c,rl)) i ->
- let rl' =
- match !rl with
- Some rl' ->
- let (_,rl'') = split rl' paramsno in
- rl''
- | None -> raise Impossible
- in
- let (e,safes',n',nn',x') =
- get_new_safes p c rl' safes n nn x
- in
- i &&
- guarded_by_destructors n' nn' kl x' safes' e
- ) (List.combine pl cl) true
- | C.Appl ((C.Rel m)::tl) when List.mem m safes || m = x ->
- let (isinductive,paramsno,cl) =
- match CicCache.get_obj uri with
- C.InductiveDefinition (tl,_,paramsno) ->
- let (_,isinductive,_,cl) = List.nth tl i in
- let cl' =
- List.map (fun (id,ty,r) -> (id, eat_prods paramsno ty, r)) cl
- in
- (isinductive,paramsno,cl')
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions(U.string_of_uri uri))
- in
- if not isinductive then
- guarded_by_destructors n nn kl x safes outtype &&
- guarded_by_destructors n nn kl x safes term &&
- (*CSC: manca ??? il controllo sul tipo di term? *)
- List.fold_right
- (fun p i -> i && guarded_by_destructors n nn kl x safes p)
- pl true
- else
- guarded_by_destructors n nn kl x safes outtype &&
- (*CSC: manca ??? il controllo sul tipo di term? *)
- List.fold_right
- (fun t i -> i && guarded_by_destructors n nn kl x safes t)
- tl true &&
- List.fold_right
- (fun (p,(_,c,rl)) i ->
- let rl' =
- match !rl with
- Some rl' ->
- let (_,rl'') = split rl' paramsno in
- rl''
- | None -> raise Impossible
- in
- let (e, safes',n',nn',x') =
- get_new_safes p c rl' safes n nn x
- in
- i &&
- guarded_by_destructors n' nn' kl x' safes' e
- ) (List.combine pl cl) true
- | _ ->
- guarded_by_destructors n nn kl x safes outtype &&
- guarded_by_destructors n nn kl x safes term &&
- (*CSC: manca ??? il controllo sul tipo di term? *)
- List.fold_right
- (fun p i -> i && guarded_by_destructors n nn kl x safes p)
- pl true
- )
- | C.Fix (_, fl) ->
- let len = List.length fl in
- let n_plus_len = n + len
- and nn_plus_len = nn + len
- and x_plus_len = x + len
- and safes' = List.map (fun x -> x + len) safes in
- List.fold_right
- (fun (_,_,ty,bo) i ->
- i && guarded_by_destructors n_plus_len nn_plus_len kl x_plus_len
- safes' ty &&
- guarded_by_destructors n_plus_len nn_plus_len kl x_plus_len
- safes' bo
- ) fl true
- | C.CoFix (_, fl) ->
- let len = List.length fl in
- let n_plus_len = n + len
- and nn_plus_len = nn + len
- and x_plus_len = x + len
- and safes' = List.map (fun x -> x + len) safes in
- List.fold_right
- (fun (_,ty,bo) i ->
- i && guarded_by_destructors n_plus_len nn_plus_len kl x_plus_len
- safes' ty &&
- guarded_by_destructors n_plus_len nn_plus_len kl x_plus_len safes'
- bo
- ) fl true
-
-(*CSC h = 0 significa non ancora protetto *)
-and guarded_by_constructors n nn h =
- let module C = Cic in
- function
- C.Rel m when m > n && m <= nn -> h = 1
- | C.Rel _
- | C.Var _
- | C.Meta _
- | C.Sort _
- | C.Implicit -> true (*CSC: ma alcuni sono impossibili!!!! vedi Prod *)
- | C.Cast (te,ty) ->
- guarded_by_constructors n nn h te &&
- guarded_by_constructors n nn h ty
- | C.Prod (_,so,de) ->
- raise Impossible (* the term has just been type-checked *)
- | C.Lambda (_,so,de) ->
- does_not_occur n nn so &&
- guarded_by_constructors (n + 1) (nn + 1) h de
- | C.Appl ((C.Rel m)::tl) when m > n && m <= nn ->
- h = 1 &&
- List.fold_right (fun x i -> i && does_not_occur n nn x) tl true
- | C.Appl ((C.MutConstruct (uri,cookingsno,i,j))::tl) ->
- let (is_coinductive, rl) =
- match CicCache.get_cooked_obj uri cookingsno with
- C.InductiveDefinition (itl,_,_) ->
- let (_,is_inductive,_,cl) = List.nth itl i in
- let (_,cons,rrec_args) = List.nth cl (j - 1) in
- (match !rrec_args with
- None -> raise Impossible
- | Some rec_args -> (not is_inductive, rec_args)
- )
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions
- (UriManager.string_of_uri uri))
- in
- is_coinductive &&
- List.fold_right
- (fun (x,r) i ->
- i &&
- if r then
- guarded_by_constructors n nn 1 x
- else
- does_not_occur n nn x
- ) (List.combine tl rl) true
- | C.Appl l ->
- List.fold_right (fun x i -> i && does_not_occur n nn x) l true
- | C.Const _
- | C.Abst _
- | C.MutInd _
- | C.MutConstruct _ -> true (*CSC: ma alcuni sono impossibili!!!! vedi Prod *)
- | C.MutCase (_,_,_,out,te,pl) ->
- let rec returns_a_coinductive =
- function
- (*CSC: per le regole di tipaggio, la chiamata ricorsiva verra' *)
- (*CSC: effettata solo una volta, per mangiarsi l'astrazione *)
- (*CSC: non dummy *)
- C.Lambda (_,_,de) -> returns_a_coinductive de
- | C.MutInd (uri,_,i) ->
- (*CSC: definire una funzioncina per questo codice sempre replicato *)
- (match CicCache.get_obj uri with
- C.InductiveDefinition (itl,_,_) ->
- let (_,is_inductive,_,_) = List.nth itl i in
- not is_inductive
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions
- (UriManager.string_of_uri uri))
- )
- (*CSC: bug nella prossima riga (manca la whd) *)
- | C.Appl ((C.MutInd (uri,_,i))::_) ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (itl,_,_) ->
- let (_,is_inductive,_,_) = List.nth itl i in
- not is_inductive
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions
- (UriManager.string_of_uri uri))
- )
- | _ -> false
- in
- does_not_occur n nn out &&
- does_not_occur n nn te &&
- if returns_a_coinductive out then
- List.fold_right
- (fun x i -> i && guarded_by_constructors n nn h x) pl true
- else
- List.fold_right (fun x i -> i && does_not_occur n nn x) pl true
- | C.Fix (_,fl) ->
- let len = List.length fl in
- let n_plus_len = n + len
- and nn_plus_len = nn + len in
- List.fold_right
- (fun (_,_,ty,bo) i ->
- i && does_not_occur n_plus_len nn_plus_len ty &&
- does_not_occur n_plus_len nn_plus_len bo
- ) fl true
- | C.CoFix (_,fl) ->
- let len = List.length fl in
- let n_plus_len = n + len
- and nn_plus_len = nn + len in
- List.fold_right
- (fun (_,ty,bo) i ->
- i && does_not_occur n_plus_len nn_plus_len ty &&
- does_not_occur n_plus_len nn_plus_len bo
- ) fl true
-
-and check_allowed_sort_elimination uri i need_dummy ind arity1 arity2 =
- let module C = Cic in
- let module U = UriManager in
- match (CicReduction.whd arity1, CicReduction.whd arity2) with
- (C.Prod (_,so1,de1), C.Prod (_,so2,de2))
- when CicReduction.are_convertible so1 so2 ->
- check_allowed_sort_elimination uri i need_dummy
- (C.Appl [CicSubstitution.lift 1 ind ; C.Rel 1]) de1 de2
- | (C.Sort C.Prop, C.Sort C.Prop) when need_dummy -> true
- | (C.Sort C.Prop, C.Sort C.Set) when need_dummy ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (itl,_,_) ->
- let (_,_,_,cl) = List.nth itl i in
- (* is a singleton definition? *)
- List.length cl = 1
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions (U.string_of_uri uri))
- )
- | (C.Sort C.Set, C.Sort C.Prop) when need_dummy -> true
- | (C.Sort C.Set, C.Sort C.Set) when need_dummy -> true
- | (C.Sort C.Set, C.Sort C.Type) when need_dummy ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (itl,_,_) ->
- let (_,_,_,cl) = List.nth itl i in
- (* is a small inductive type? *)
- (*CSC: ottimizzare calcolando staticamente *)
- let rec is_small =
- function
- C.Prod (_,so,de) ->
- let s = type_of so in
- (s = C.Sort C.Prop || s = C.Sort C.Set) &&
- is_small de
- | _ -> true (*CSC: we trust the type-checker *)
- in
- List.fold_right (fun (_,x,_) i -> i && is_small x) cl true
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions (U.string_of_uri uri))
- )
- | (C.Sort C.Type, C.Sort _) when need_dummy -> true
- | (C.Sort C.Prop, C.Prod (_,so,ta)) when not need_dummy ->
- let res = CicReduction.are_convertible so ind
- in
- res &&
- (match CicReduction.whd ta with
- C.Sort C.Prop -> true
- | C.Sort C.Set ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (itl,_,_) ->
- let (_,_,_,cl) = List.nth itl i in
- (* is a singleton definition? *)
- List.length cl = 1
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions
- (U.string_of_uri uri))
- )
- | _ -> false
- )
- | (C.Sort C.Set, C.Prod (_,so,ta)) when not need_dummy ->
- let res = CicReduction.are_convertible so ind
- in
- res &&
- (match CicReduction.whd ta with
- C.Sort C.Prop
- | C.Sort C.Set -> true
- | C.Sort C.Type ->
- (match CicCache.get_obj uri with
- C.InductiveDefinition (itl,_,_) ->
- let (_,_,_,cl) = List.nth itl i in
- (* is a small inductive type? *)
- let rec is_small =
- function
- C.Prod (_,so,de) ->
- let s = type_of so in
- (s = C.Sort C.Prop || s = C.Sort C.Set) &&
- is_small de
- | _ -> true (*CSC: we trust the type-checker *)
- in
- List.fold_right (fun (_,x,_) i -> i && is_small x) cl true
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions
- (U.string_of_uri uri))
- )
- | _ -> raise Impossible
- )
- | (C.Sort C.Type, C.Prod (_,so,_)) when not need_dummy ->
- CicReduction.are_convertible so ind
- | (_,_) -> false
-
-and type_of_branch argsno need_dummy outtype term constype =
- let module C = Cic in
- let module R = CicReduction in
- match R.whd constype with
- C.MutInd (_,_,_) ->
- if need_dummy then
- outtype
- else
- C.Appl [outtype ; term]
- | C.Appl (C.MutInd (_,_,_)::tl) ->
- let (_,arguments) = split tl argsno
- in
- if need_dummy && arguments = [] then
- outtype
- else
- C.Appl (outtype::arguments@(if need_dummy then [] else [term]))
- | C.Prod (name,so,de) ->
- C.Prod (C.Name "pippo",so,type_of_branch argsno need_dummy
- (CicSubstitution.lift 1 outtype)
- (C.Appl [CicSubstitution.lift 1 term ; C.Rel 1]) de)
- | _ -> raise Impossible
-
-
-and type_of t =
- let rec type_of_aux env =
- let module C = Cic in
- let module R = CicReduction in
- let module S = CicSubstitution in
- let module U = UriManager in
- function
- C.Rel n -> S.lift n (List.nth env (n - 1))
- | C.Var uri ->
- incr fdebug ;
- let ty = type_of_variable uri in
- decr fdebug ;
- ty
- | C.Meta n -> raise NotImplemented
- | C.Sort s -> C.Sort C.Type (*CSC manca la gestione degli universi!!! *)
- | C.Implicit -> raise Impossible
- | C.Cast (te,ty) ->
- let _ = type_of ty in
- if R.are_convertible (type_of_aux env te) ty then ty
- else raise (NotWellTyped "Cast")
- | C.Prod (_,s,t) ->
- let sort1 = type_of_aux env s
- and sort2 = type_of_aux (s::env) t in
- sort_of_prod (sort1,sort2)
- | C.Lambda (n,s,t) ->
- let sort1 = type_of_aux env s
- and type2 = type_of_aux (s::env) t in
- let sort2 = type_of_aux (s::env) type2 in
- (* only to check if the product is well-typed *)
- let _ = sort_of_prod (sort1,sort2) in
- C.Prod (n,s,type2)
- | C.Appl (he::tl) when List.length tl > 0 ->
- let hetype = type_of_aux env he
- and tlbody_and_type = List.map (fun x -> (x, type_of_aux env x)) tl in
- (try
- eat_prods hetype tlbody_and_type
- with _ -> debug (C.Appl (he::tl)) env ; C.Implicit)
- | C.Appl _ -> raise (NotWellTyped "Appl: no arguments")
- | C.Const (uri,cookingsno) ->
- incr fdebug ;
- let cty = cooked_type_of_constant uri cookingsno in
- decr fdebug ;
- cty
- | C.Abst _ -> raise Impossible
- | C.MutInd (uri,cookingsno,i) ->
- incr fdebug ;
- let cty = cooked_type_of_mutual_inductive_defs uri cookingsno i in
- decr fdebug ;
- cty
- | C.MutConstruct (uri,cookingsno,i,j) ->
- let cty = cooked_type_of_mutual_inductive_constr uri cookingsno i j
- in
- cty
- | C.MutCase (uri,cookingsno,i,outtype,term,pl) ->
- let outsort = type_of_aux env outtype in
- let (need_dummy, k) =
- let rec guess_args t =
- match decast t with
- C.Sort _ -> (true, 0)
- | C.Prod (_, s, t) ->
- let (b, n) = guess_args t in
- if n = 0 then
- (* last prod before sort *)
- match CicReduction.whd s with
- (*CSC vedi nota delirante su cookingsno in cicReduction.ml *)
- C.MutInd (uri',_,i') when U.eq uri' uri && i' = i -> (false, 1)
- | C.Appl ((C.MutInd (uri',_,i')) :: _)
- when U.eq uri' uri && i' = i -> (false, 1)
- | _ -> (true, 1)
- else
- (b, n + 1)
- | _ -> raise (NotWellTyped "MutCase: outtype ill-formed")
- in
- (*CSC whd non serve dopo type_of_aux ? *)
- let (b, k) = guess_args outsort in
- if not b then (b, k - 1) else (b, k)
- in
- let (parameters, arguments) =
- match R.whd (type_of_aux env term) with
- (*CSC manca il caso dei CAST *)
- C.MutInd (uri',_,i') ->
- (*CSC vedi nota delirante sui cookingsno in cicReduction.ml*)
- if U.eq uri uri' && i = i' then ([],[])
- else raise (NotWellTyped ("MutCase: the term is of type " ^
- (U.string_of_uri uri') ^ "," ^ string_of_int i' ^
- " instead of type " ^ (U.string_of_uri uri') ^ "," ^
- string_of_int i))
- | C.Appl (C.MutInd (uri',_,i') :: tl) ->
- if U.eq uri uri' && i = i' then split tl (List.length tl - k)
- else raise (NotWellTyped ("MutCase: the term is of type " ^
- (U.string_of_uri uri') ^ "," ^ string_of_int i' ^
- " instead of type " ^ (U.string_of_uri uri) ^ "," ^
- string_of_int i))
- | _ -> raise (NotWellTyped "MutCase: the term is not an inductive one")
- in
- (* let's control if the sort elimination is allowed: [(I q1 ... qr)|B] *)
- let sort_of_ind_type =
- if parameters = [] then
- C.MutInd (uri,cookingsno,i)
- else
- C.Appl ((C.MutInd (uri,cookingsno,i))::parameters)
- in
- if not (check_allowed_sort_elimination uri i need_dummy
- sort_of_ind_type (type_of_aux env sort_of_ind_type) outsort)
- then
- raise (NotWellTyped "MutCase: not allowed sort elimination") ;
-
- (* let's check if the type of branches are right *)
- let (cl,parsno) =
- match CicCache.get_cooked_obj uri cookingsno with
- C.InductiveDefinition (tl,_,parsno) ->
- let (_,_,_,cl) = List.nth tl i in (cl,parsno)
- | _ ->
- raise (WrongUriToMutualInductiveDefinitions (U.string_of_uri uri))
- in
- let (_,branches_ok) =
- List.fold_left
- (fun (j,b) (p,(_,c,_)) ->
- let cons =
- if parameters = [] then
- (C.MutConstruct (uri,cookingsno,i,j))
- else
- (C.Appl (C.MutConstruct (uri,cookingsno,i,j)::parameters))
- in
- (j + 1, b &&
- R.are_convertible (type_of_aux env p)
- (type_of_branch parsno need_dummy outtype cons
- (type_of_aux env cons))
- )
- ) (1,true) (List.combine pl cl)
- in
- if not branches_ok then
- raise (NotWellTyped "MutCase: wrong type of a branch") ;
-
- if not need_dummy then
- C.Appl ((outtype::arguments)@[term])
- else if arguments = [] then
- outtype
- else
- C.Appl (outtype::arguments)
- | C.Fix (i,fl) ->
- let types_times_kl =
- List.rev
- (List.map (fun (_,k,ty,_) -> let _ = type_of_aux env ty in (ty,k)) fl)
- in
- let (types,kl) = List.split types_times_kl in
- let len = List.length types in
- List.iter
- (fun (name,x,ty,bo) ->
- if (R.are_convertible (type_of_aux (types @ env) bo)
- (CicSubstitution.lift len ty))
- then
- begin
- let (m, eaten) = eat_lambdas (x + 1) bo in
- (*let's control the guarded by destructors conditions D{f,k,x,M}*)
- if not (guarded_by_destructors eaten (len + eaten) kl 1 [] m) then
- raise (NotWellTyped "Fix: not guarded by destructors")
- end
- else
- raise (NotWellTyped "Fix: ill-typed bodies")
- ) fl ;
-
- (*CSC: controlli mancanti solo su D{f,k,x,M} *)
- let (_,_,ty,_) = List.nth fl i in
- ty
- | C.CoFix (i,fl) ->
- let types =
- List.rev (List.map (fun (_,ty,_) -> let _ = type_of_aux env ty in ty) fl)
- in
- let len = List.length types in
- List.iter
- (fun (_,ty,bo) ->
- if (R.are_convertible (type_of_aux (types @ env) bo)
- (CicSubstitution.lift len ty))
- then
- begin
- (* let's control the guarded by constructors conditions C{f,M} *)
- if not (guarded_by_constructors 0 len 0 bo) then
- raise (NotWellTyped "CoFix: not guarded by constructors")
- end
- else
- raise (NotWellTyped "CoFix: ill-typed bodies")
- ) fl ;
-
- let (_,ty,_) = List.nth fl i in
- ty
-
- and decast =
- let module C = Cic in
- function
- C.Cast (t,_) -> t
- | t -> t
-
- and sort_of_prod (t1, t2) =
- let module C = Cic in
- match (decast t1, decast t2) with
- (C.Sort s1, C.Sort s2)
- when (s2 = C.Prop or s2 = C.Set) -> (* different from Coq manual!!! *)
- C.Sort s2
- | (C.Sort s1, C.Sort s2) -> C.Sort C.Type (*CSC manca la gestione degli universi!!! *)
- | (_,_) -> raise (NotWellTyped "Prod")
-
- and eat_prods hetype =
- (*CSC: siamo sicuri che le are_convertible non lavorino con termini non *)
- (*CSC: cucinati *)
- function
- [] -> hetype
- | (hete, hety)::tl ->
- (match (CicReduction.whd hetype) with
- Cic.Prod (n,s,t) ->
- if CicReduction.are_convertible s hety then
- (CicReduction.fdebug := -1 ;
- eat_prods (CicSubstitution.subst hete t) tl
- )
- else
- (
- CicReduction.fdebug := 0 ;
- let _ = CicReduction.are_convertible s hety in
- debug hete [hety ; s] ;
- raise (NotWellTyped "Appl: wrong parameter-type")
-)
- | _ -> raise (NotWellTyped "Appl: wrong Prod-type")
- )
- in
- type_of_aux [] t
-;;
-
-let typecheck uri =
- let module C = Cic in
- let module R = CicReduction in
- let module U = UriManager in
- match CicCache.is_type_checked uri 0 with
- CicCache.CheckedObj _ -> ()
- | CicCache.UncheckedObj uobj ->
- (* let's typecheck the uncooked object *)
- (match uobj with
- C.Definition (_,te,ty,_) ->
- let _ = type_of ty in
- if not (R.are_convertible (type_of te ) ty) then
- raise (NotWellTyped ("Constant " ^ (U.string_of_uri uri)))
- | C.Axiom (_,ty,_) ->
- (* only to check that ty is well-typed *)
- let _ = type_of ty in ()
- | C.CurrentProof (_,_,te,ty) ->
- (*CSC [] wrong *)
- let _ = type_of ty in
- debug (type_of te) [] ;
- if not (R.are_convertible (type_of te) ty) then
- raise (NotWellTyped ("CurrentProof" ^ (U.string_of_uri uri)))
- | C.Variable (_,ty) ->
- (* only to check that ty is well-typed *)
- (*CSC [] wrong *)
- let _ = type_of ty in ()
- | C.InductiveDefinition _ ->
- cooked_mutual_inductive_defs uri uobj
- ) ;
- CicCache.set_type_checking_info uri
-;;
+++ /dev/null
-exception NotWellTyped of string
-exception WrongUriToConstant of string
-exception WrongUriToVariable of string
-exception WrongUriToMutualInductiveDefinitions of string
-exception ListTooShort
-exception NotPositiveOccurrences of string
-exception NotWellFormedTypeOfInductiveConstructor of string
-exception WrongRequiredArgument of string
-val typecheck : UriManager.uri -> unit
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 14/06/2000 *)
-(* *)
-(* *)
-(******************************************************************************)
-
-let get_annotation_from_term annterm =
- let module C = Cic in
- match annterm with
- C.ARel (_,ann,_,_) -> ann
- | C.AVar (_,ann,_) -> ann
- | C.AMeta (_,ann,_) -> ann
- | C.ASort (_,ann,_) -> ann
- | C.AImplicit (_,ann) -> ann
- | C.ACast (_,ann,_,_) -> ann
- | C.AProd (_,ann,_,_,_) -> ann
- | C.ALambda (_,ann,_,_,_) -> ann
- | C.AAppl (_,ann,_) -> ann
- | C.AConst (_,ann,_,_) -> ann
- | C.AAbst (_,ann,_) -> ann
- | C.AMutInd (_,ann,_,_,_) -> ann
- | C.AMutConstruct (_,ann,_,_,_,_)-> ann
- | C.AMutCase (_,ann,_,_,_,_,_,_) -> ann
- | C.AFix (_,ann,_,_) -> ann
- | C.ACoFix (_,ann,_,_) -> ann
-;;
-
-let get_annotation_from_obj annobj =
- let module C = Cic in
- match annobj with
- C.ADefinition (_,ann,_,_,_,_) -> ann
- | C.AAxiom (_,ann,_,_,_) -> ann
- | C.AVariable (_,ann,_,_) -> ann
- | C.ACurrentProof (_,ann,_,_,_,_) -> ann
- | C.AInductiveDefinition (_,ann,_,_,_) -> ann
-;;
-
-exception IdUnknown of string;;
-
-let get_annotation (annobj,ids_to_targets) xpath =
- try
- match Hashtbl.find ids_to_targets xpath with
- Cic.Object annobj -> get_annotation_from_obj annobj
- | Cic.Term annterm -> get_annotation_from_term annterm
- with
- Not_found -> raise (IdUnknown xpath)
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 11/04/2000 *)
-(* *)
-(* *)
-(******************************************************************************)
-
-(* functions to parse an XPath to retrieve the annotation *)
-
-exception WrongXPath of string;;
-
-let rec get_annotation_of_inductiveFun f xpath =
- let module C = Cic in
- match (xpath,f) with
- 1::tl,(_,_,ty,_) -> get_annotation_of_term ty tl
- | 2::tl,(_,_,_,te) -> get_annotation_of_term te tl
- | l,_ ->
- raise (WrongXPath (List.fold_right (fun n i -> string_of_int n ^ i) l ""))
-
-and get_annotation_of_coinductiveFun f xpath =
- let module C = Cic in
- match (xpath,f) with
- 1::tl,(_,ty,_) -> get_annotation_of_term ty tl
- | 2::tl,(_,_,te) -> get_annotation_of_term te tl
- | l,_ ->
- raise (WrongXPath (List.fold_right (fun n i -> string_of_int n ^ i) l ""))
-
-and get_annotation_of_inductiveType ty xpath =
- let module C = Cic in
- match (xpath,ty) with
- 1::tl,(_,_,arity,_) -> get_annotation_of_term arity tl
- | n::tl,(_,_,_,cons) when n <= List.length cons + 1 ->
- let (_,ty,_) = List.nth cons (n-2) in
- get_annotation_of_term ty tl
- | l,_ ->
- raise (WrongXPath (List.fold_right (fun n i -> string_of_int n ^ i) l ""))
-
-and get_annotation_of_term term xpath =
- let module C = Cic in
- match (xpath,term) with
- [],C.ARel (_,ann,_,_) -> ann
- | [],C.AVar (_,ann,_) -> ann
- | [],C.AMeta (_,ann,_) -> ann
- | [],C.ASort (_,ann,_) -> ann
- | [],C.AImplicit (_,ann) -> ann
- | [],C.ACast (_,ann,_,_) -> ann
- | 1::tl,C.ACast (_,_,te,_) -> get_annotation_of_term te tl
- | 2::tl,C.ACast (_,_,_,ty) -> get_annotation_of_term ty tl
- | [],C.AProd (_,ann,_,_,_) -> ann
- | 1::tl,C.AProd (_,_,_,so,_) -> get_annotation_of_term so tl
- | 2::tl,C.AProd (_,_,_,_,ta) -> get_annotation_of_term ta tl
- | [],C.ALambda (_,ann,_,_,_) -> ann
- | 1::tl,C.ALambda (_,_,_,so,_) -> get_annotation_of_term so tl
- | 2::tl,C.ALambda (_,_,_,_,ta) -> get_annotation_of_term ta tl
- | [],C.AAppl (_,ann,_) -> ann
- | n::tl,C.AAppl (_,_,l) when n <= List.length l ->
- get_annotation_of_term (List.nth l (n-1)) tl
- | [],C.AConst (_,ann,_,_) -> ann
- | [],C.AAbst (_,ann,_) -> ann
- | [],C.AMutInd (_,ann,_,_,_) -> ann
- | [],C.AMutConstruct (_,ann,_,_,_,_) -> ann
- | [],C.AMutCase (_,ann,_,_,_,_,_,_) -> ann
- | 1::tl,C.AMutCase (_,_,_,_,_,outt,_,_) -> get_annotation_of_term outt tl
- | 2::tl,C.AMutCase (_,_,_,_,_,_,te,_) -> get_annotation_of_term te tl
- | n::tl,C.AMutCase (_,_,_,_,_,_,_,pl) when n <= List.length pl ->
- get_annotation_of_term (List.nth pl (n-1)) tl
- | [],C.AFix (_,ann,_,_) -> ann
- | n::tl,C.AFix (_,_,_,fl) when n <= List.length fl ->
- get_annotation_of_inductiveFun (List.nth fl (n-1)) tl
- | [],C.ACoFix (_,ann,_,_) -> ann
- | n::tl,C.ACoFix (_,_,_,fl) when n <= List.length fl ->
- get_annotation_of_coinductiveFun (List.nth fl (n-1)) tl
- | l,_ ->
- raise (WrongXPath (List.fold_right (fun n i -> string_of_int n ^ i) l ""))
-;;
-
-let get_annotation (annobj,_) xpath =
- let module C = Cic in
- match (xpath,annobj) with
- [],C.ADefinition (_,ann,_,_,_,_) -> ann
- | 1::tl,C.ADefinition (_,_,_,bo,_,_) -> get_annotation_of_term bo tl
- | 2::tl,C.ADefinition (_,_,_,_,ty,_) -> get_annotation_of_term ty tl
- | [],C.AAxiom (_,ann,_,_,_) -> ann
- | 1::tl,C.AAxiom (_,_,_,ty,_) -> get_annotation_of_term ty tl
- | [],C.AVariable (_,ann,_,_) -> ann
- | 1::tl,C.AVariable (_,_,_,ty) -> get_annotation_of_term ty tl
- | [],C.ACurrentProof (_,ann,_,_,_,_) -> ann
- | n::tl,C.ACurrentProof (_,ann,_,conjs,_,_) when n <= List.length conjs ->
- get_annotation_of_term (snd (List.nth conjs (n-1))) tl
- | n::tl,C.ACurrentProof (_,ann,_,conjs,bo,_) when n = List.length conjs + 1 ->
- get_annotation_of_term bo tl
- | n::tl,C.ACurrentProof (_,ann,_,conjs,_,ty) when n = List.length conjs + 2 ->
- get_annotation_of_term ty tl
- | [],C.AInductiveDefinition (_,ann,_,_,_) -> ann
- | n::tl,C.AInductiveDefinition (_,_,tys,_,_) when n <= List.length tys ->
- get_annotation_of_inductiveType (List.nth tys (n-1)) tl
- | l,_ ->
- raise (WrongXPath (List.fold_right (fun n i -> string_of_int n ^ i) l ""))
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 06/05/2000 *)
-(* *)
-(* This is the parser that reads the configuration file of helm *)
-(* *)
-(******************************************************************************)
-
-(* this should be the only hard coded constant *)
-let filename =
- let prefix =
- try
- Sys.getenv "HELM_CONFIGURATION_PREFIX"
- with
- Not_found -> ""
- in
- prefix ^ "/local/etc/helm/configuration.xml";;
-
-exception Warnings;;
-
-class warner =
- object
- method warn w =
- print_endline ("WARNING: " ^ w) ;
- (raise Warnings : unit)
- end
-;;
-
-let xml_document () =
- let module Y = Pxp_yacc in
- try
- let config = {Y.default_config with Y.warner = new warner} in
- Y.parse_document_entity config (Y.from_file filename) Y.default_spec
- with
- e ->
- print_endline (Pxp_types.string_of_exn e) ;
- raise e
-;;
-
-exception Impossible;;
-
-let vars = Hashtbl.create 14;;
-
-(* resolve <value-of> tags and returns the string values of the variable tags *)
-let rec resolve =
- let module D = Pxp_document in
- function
- [] -> ""
- | he::tl when he#node_type = D.T_element "value-of" ->
- (match he#attribute "var" with
- Pxp_types.Value var -> Hashtbl.find vars var
- | _ -> raise Impossible
- ) ^ resolve tl
- | he::tl when he#node_type = D.T_data ->
- he#data ^ resolve tl
- | _ -> raise Impossible
-;;
-
-(* we trust the xml file to be valid because of the validating xml parser *)
-let _ =
- List.iter
- (function
- n ->
- match n#node_type with
- Pxp_document.T_element var ->
- Hashtbl.add vars var (resolve (n#sub_nodes))
- | _ -> raise Impossible
- )
- ((xml_document ())#root#sub_nodes)
-;;
-
-let helm_dir = Hashtbl.find vars "helm_dir";;
-let dtd_dir = Hashtbl.find vars "dtd_dir";;
-let servers_file = Hashtbl.find vars "servers_file";;
-let uris_dbm = Hashtbl.find vars "uris_dbm";;
-let dest = Hashtbl.find vars "dest";;
-let indexname = Hashtbl.find vars "indexname";;
-let tmpdir = Hashtbl.find vars "tmpdir";;
-let helm_dir = Hashtbl.find vars "helm_dir";;
-let getter_url = Hashtbl.find vars "getter_url";;
-
-let _ = Hashtbl.clear vars;;
+++ /dev/null
-let expect_possible_parameters = ref false;;
-
-exception NotExpectingPossibleParameters;;
-
-let rec deannotate_term =
- let module C = Cic in
- function
- C.ARel (_,_,n,_) -> C.Rel n
- | C.AVar (_,_,uri) -> C.Var uri
- | C.AMeta (_,_,n) -> C.Meta n
- | C.ASort (_,_,s) -> C.Sort s
- | C.AImplicit _ -> C.Implicit
- | C.ACast (_,_,va,ty) -> C.Cast (deannotate_term va, deannotate_term ty)
- | C.AProd (_,_,name,so,ta) ->
- C.Prod (name, deannotate_term so, deannotate_term ta)
- | C.ALambda (_,_,name,so,ta) ->
- C.Lambda (name, deannotate_term so, deannotate_term ta)
- | C.AAppl (_,_,l) -> C.Appl (List.map deannotate_term l)
- | C.AConst (_,_,uri, cookingsno) -> C.Const (uri, cookingsno)
- | C.AAbst (_,_,uri) -> C.Abst uri
- | C.AMutInd (_,_,uri,cookingsno,i) -> C.MutInd (uri,cookingsno,i)
- | C.AMutConstruct (_,_,uri,cookingsno,i,j) ->
- C.MutConstruct (uri,cookingsno,i,j)
- | C.AMutCase (_,_,uri,cookingsno,i,outtype,te,pl) ->
- C.MutCase (uri,cookingsno,i,deannotate_term outtype,
- deannotate_term te, List.map deannotate_term pl)
- | C.AFix (_,_,funno,ifl) ->
- C.Fix (funno, List.map deannotate_inductiveFun ifl)
- | C.ACoFix (_,_,funno,ifl) ->
- C.CoFix (funno, List.map deannotate_coinductiveFun ifl)
-
-and deannotate_inductiveFun (name,index,ty,bo) =
- (name, index, deannotate_term ty, deannotate_term bo)
-
-and deannotate_coinductiveFun (name,ty,bo) =
- (name, deannotate_term ty, deannotate_term bo)
-;;
-
-let deannotate_inductiveType (name, isinductive, arity, cons) =
- (name, isinductive, deannotate_term arity,
- List.map (fun (id,ty,recs) -> (id,deannotate_term ty, recs)) cons)
-;;
-
-let deannotate_obj =
- let module C = Cic in
- function
- C.ADefinition (_, _, id, bo, ty, params) ->
- (match params with
- C.Possible params ->
- if !expect_possible_parameters then
- C.Definition (id, deannotate_term bo, deannotate_term ty, params)
- else
- raise NotExpectingPossibleParameters
- | C.Actual params ->
- C.Definition (id, deannotate_term bo, deannotate_term ty, params)
- )
- | C.AAxiom (_, _, id, ty, params) ->
- C.Axiom (id, deannotate_term ty, params)
- | C.AVariable (_, _, name, ty) ->
- C.Variable (name, deannotate_term ty)
- | C.ACurrentProof (_, _, name, conjs, bo, ty) ->
- C.CurrentProof (
- name, List.map (fun (id,con) -> (id,deannotate_term con)) conjs,
- deannotate_term bo, deannotate_term ty
- )
- | C.AInductiveDefinition (_, _, tys, params, parno) ->
- C.InductiveDefinition ( List.map deannotate_inductiveType tys,
- params, parno)
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This is a textual interface to the Coq-like pretty printer cicPp for cic *)
-(* terms exported in xml. It uses directly the modules cicPp and cache and *)
-(* indirectly all the other modules (cicParser, cicParser2, cicParser3, *)
-(* getter). The syntax is "experiment[.opt] filename1 ... filenamen" where *)
-(* filenamei is the path-name of an xml file describing a cic term. On stdout *)
-(* are pretty-printed all the n terms *)
-(* *)
-(******************************************************************************)
-
-let pretty_print = ref true;;
-let read_from_stdin = ref false;;
-let uris_in_input = ref false;;
-
-let parse uri =
- if !pretty_print then
- begin
- print_endline ("^^^" ^ uri ^ "^^^") ;
- print_string (CicPp.ppobj (CicCache.get_obj (UriManager.uri_of_string uri)));
- print_endline ("\n$$$" ^ uri ^ "$$$\n")
- end
- else
- begin
- print_string uri ;
- let _ = CicCache.get_obj (UriManager.uri_of_string uri) in
- print_endline " OK!" ;
- flush stdout
- end
-;;
-
-let uri_of_filename fn =
- if !uris_in_input then fn
- else
- let uri =
- Str.replace_first (Str.regexp (Str.quote Configuration.helm_dir)) "cic:" fn
- in
- let uri' = Str.replace_first (Str.regexp "\.xml$") "" uri in
- uri'
-;;
-
-let read_filenames_from_stdin () =
- let files = ref [] in
- try
- while true do
- let l = Str.split (Str.regexp " ") (read_line ()) in
- List.iter (fun x -> files := (uri_of_filename x) :: !files) l
- done
- with
- End_of_file ->
- files := List.rev !files ;
- List.iter parse !files
-;;
-
-(* filenames are read from command line and converted to uris via *)
-(* uri_of_filenames; then the cic terms are load in cache via *)
-(* CicCache.get_obj and then pretty printed via CicPp.ppobj *)
-
-let main() =
- let files = ref [] in
- Arg.parse
- ["-nopp", Arg.Clear pretty_print, "Do not pretty print, parse only" ;
- "-stdin", Arg.Set read_from_stdin, "Read from stdin" ;
- "-uris", Arg.Set uris_in_input, "Read uris, not filenames" ;
- "-update", Arg.Unit Getter.update, "Update the getter view of the world"]
- (fun x -> files := (uri_of_filename x) :: !files)
- "
-usage: experiment file ...
-
-List of options:";
- if !read_from_stdin then read_filenames_from_stdin ()
- else
- begin
- files := List.rev !files;
- List.iter parse !files
- end
-;;
-
-main();;
+++ /dev/null
-let read_from_stdin = ref false;;
-
-let uri_of_filename fn =
- let uri =
- Str.replace_first (Str.regexp (Str.quote Configuration.helm_dir)) "cic:" fn
- in
- let uri' = Str.replace_first (Str.regexp "\.xml$") "" uri in
- UriManager.uri_of_string uri'
-;;
-
-let main() =
- Deannotate.expect_possible_parameters := true ;
- let files = ref [] in
- Arg.parse
- ["-stdin", Arg.Set read_from_stdin, "Read from stdin"]
- (fun x -> files := (x, uri_of_filename x) :: !files)
- "
-usage: experiment file ...
-
-List of options:";
- if !read_from_stdin then
- begin
- try
- while true do
- let l = Str.split (Str.regexp " ") (read_line ()) in
- List.iter (fun x -> files := (x, uri_of_filename x) :: !files) l
- done
- with
- End_of_file -> ()
- end ;
- files := List.rev !files;
- Getter.update () ;
- print_endline "ATTENTION: have you changed servers.txt so that you'll try \
- to repair your own objs instead of others'?" ;
- flush stdout ;
- List.iter
- (function (fn, uri) ->
- print_string (UriManager.string_of_uri uri) ;
- flush stdout ;
- (try
- CicFindParameters.fix_params uri (Some fn)
- with
- e -> print_newline () ; flush stdout ; raise e ) ;
- print_endline " OK!" ;
- flush stdout
- ) !files
-;;
-
-main();;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(******************************************************************************)
-
-exception ErrorGetting of string;;
-
-module OrderedStrings =
- struct
- type t = string
- let compare (s1 : t) (s2 : t) = compare s1 s2
- end
-;;
-
-module MapOfStrings = Map.Make(OrderedStrings);;
-
-let read_index url =
- let module C = Configuration in
- if Sys.command ("wget -c -P " ^ C.tmpdir ^ " " ^ url ^ "/\"" ^
- C.indexname ^ "\"") <> 0
- then
- raise (ErrorGetting url) ;
- let tmpfilename = C.tmpdir ^ "/" ^ C.indexname in
- let fd = open_in tmpfilename in
- let uris = ref [] in
- try
- while true do
- uris := (input_line fd) :: !uris
- done ;
- [] (* only to make the compiler happy *)
- with
- End_of_file ->
- Sys.remove tmpfilename ;
- !uris
-;;
-
-(* mk_urls_of_uris list_of_servers_base_urls *)
-let rec mk_urls_of_uris =
- function
- [] -> MapOfStrings.empty
- | he::tl ->
- let map = mk_urls_of_uris tl in
- let uris = read_index he in
- let url_of_uri uri =
- let url = uri ^ ".xml" in
- let url' = Str.replace_first (Str.regexp "cic:") he url in
- let url'' = Str.replace_first (Str.regexp "theory:") he url' in
- url''
- in
- List.fold_right
- (fun uri m -> MapOfStrings.add uri (url_of_uri uri) m)
- uris map
-;;
-
-let update () =
- let module C = Configuration in
- let fd = open_in C.servers_file in
- let servers = ref [] in
- try
- while true do
- servers := (input_line fd) :: !servers
- done
- with
- End_of_file ->
- let urls_of_uris = mk_urls_of_uris (List.rev !servers) in
- (try Sys.remove (C.uris_dbm ^ ".db") with _ -> ()) ;
- let dbm =
- Dbm.opendbm C.uris_dbm [Dbm.Dbm_wronly ; Dbm.Dbm_create] 0o660
- in
- MapOfStrings.iter (fun uri url -> Dbm.add dbm uri url) urls_of_uris ;
- Dbm.close dbm
-;;
-
-(* url_of_uri : uri -> url *)
-let url_of_uri uri =
- let dbm = Dbm.opendbm Configuration.uris_dbm [Dbm.Dbm_rdonly] 0o660 in
- let url = Dbm.find dbm (UriManager.string_of_uri uri) in
- Dbm.close dbm ;
- url
-;;
-
-let filedir_of_uri uri =
- let fn = UriManager.buri_of_uri uri in
- let fn' = Str.replace_first (Str.regexp ".*:") Configuration.dest fn in
- fn'
-;;
-
-let name_and_ext_of_uri uri =
- let str = UriManager.string_of_uri uri in
- Str.replace_first (Str.regexp ".*/") "" str
-;;
-
-(* get_file : uri -> filename *)
-let get_file uri =
- let dir = filedir_of_uri uri in
- let fn = dir ^ "/" ^ name_and_ext_of_uri uri ^ ".xml" in
- if not (Sys.file_exists fn) then
- begin
- let url = url_of_uri uri in
- (*CSC: use -q for quiet mode *)
- if Sys.command ("wget -c -P " ^ dir ^ " \"" ^ url ^"\"") <> 0
- then
- raise (ErrorGetting url) ;
- end ;
- fn
-;;
-
-(* get : uri -> filename *)
-(* If uri is the URI of an annotation, the annotated object is processed *)
-let get uri =
- let module U = UriManager in
- get_file
- (U.uri_of_string
- (Str.replace_first (Str.regexp "\.ann$") ""
- (Str.replace_first (Str.regexp "\.types$") "" (U.string_of_uri uri))))
-;;
-
-(* get_ann : uri -> filename *)
-(* If uri is the URI of an annotation, the annotation file is processed *)
-let get_ann = get_file;;
-
-(* get_ann_file_name_and_uri : uri -> filename * annuri *)
-(* If given an URI, it returns the name of the corresponding *)
-(* annotation file and the annotation uri *)
-let get_ann_file_name_and_uri uri =
- let module U = UriManager in
- let uri = U.string_of_uri uri in
- let annuri =
- U.uri_of_string (
- if Str.string_match (Str.regexp ".*\.ann$") uri 0 then
- uri
- else
- uri ^ ".ann"
- )
- in
- let dir = filedir_of_uri annuri in
- let fn = dir ^ "/" ^ name_and_ext_of_uri annuri ^ ".xml" in
- (fn, annuri)
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* *)
-(******************************************************************************)
-
-(* get : uri -> filename *)
-(* If uri is the URI of an annotation, the annotated object is processed *)
-val get : UriManager.uri -> string
-
-(* get_ann : uri -> filename *)
-(* If uri is the URI of an annotation, the annotation file is processed *)
-val get_ann : UriManager.uri -> string
-
-(* get_ann_file_name_and_uri : uri -> filename * annuri *)
-(* If given an URI, it returns the name of the corresponding *)
-(* annotation file and the annotation uri *)
-val get_ann_file_name_and_uri : UriManager.uri -> string * UriManager.uri
-
-(* synchronize with the servers *)
-val update : unit -> unit
+++ /dev/null
-#!/usr/bin/perl
-
-# First of all, let's load HELM configuration
-use Env;
-my $HELM_CONFIGURATION_PREFIX = $ENV{"HELM_CONFIGURATION_PREFIX"};
-my $HELM_CONFIGURATION_PATH =
- $HELM_CONFIGURATION_PREFIX."/local/lib/helm/configuration.pl";
-# next require defines: $helm_dir, $html_link
-require $HELM_CONFIGURATION_PATH;
-
-
-
-use HTTP::Daemon;
-use HTTP::Status;
-use HTTP::Request;
-use LWP::UserAgent;
-use DB_File;
-
-my $cont = "";
-my $d = new HTTP::Daemon LocalPort => 8081;
-tie(%map, 'DB_File', 'urls_of_uris.db', O_RDONLY, 0664);
-print "Please contact me at: <URL:", $d->url, ">\n";
-print "helm_dir: $helm_dir\n";
-$SIG{CHLD} = "IGNORE"; # do not accumulate defunct processes
-while (my $c = $d->accept) {
- if (fork() == 0) {
- while (my $r = $c->get_request) {
- #CSC: mancano i controlli di sicurezza
-
- $cont = "";
- my $cicuri = $r->url;
- $cicuri =~ s/^[^?]*\?url=(.*)/$1/;
- print "*".$r->url."\n";
- my $http_method = $r->method;
- my $http_path = $r->url->path;
- if ($http_method eq 'GET' and $http_path eq "/get") {
- my $filename = $cicuri;
- $filename =~ s/cic:(.*)/$1/;
- $filename =~ s/theory:(.*)/$1/;
- $filename = $helm_dir.$filename.".xml";
- my $resolved = $map{$cicuri};
- print "$cicuri ==> $resolved ($filename)\n";
- if (stat($filename)) {
- print "Using local copy\n";
- open(FD, $filename);
- while(<FD>) { $cont .= $_; }
- close(FD);
- my $res = new HTTP::Response;
- $res->content($cont);
- $c->send_response($res);
- } else {
- print "Downloading\n";
- $ua = LWP::UserAgent->new;
- $request = HTTP::Request->new(GET => "$resolved");
- $response = $ua->request($request, \&callback);
-
- print "Storing file\n";
- open(FD, $filename);
- print FD $cont;
- close(FD);
-
- my $res = new HTTP::Response;
- $res->content($cont);
- $c->send_response($res);
- }
- } elsif ($http_method eq 'GET' and $http_path eq "/annotate") {
- my $do_annotate = ($cicuri =~ /\.ann$/);
- my $target_to_annotate = $cicuri;
- $target_to_annotate =~ s/(.*)\.ann$/$1/ if $do_annotate;
- my $filename = $cicuri;
- $filename =~ s/cic:(.*)/$1/;
- $filename =~ s/theory:(.*)/$1/;
- my $filename_target = $helm_dir.$filename if $do_annotate;
- $filename = $helm_dir.$filename.".xml";
- $filename_target =~ s/(.*)\.ann$/$1.xml/ if $do_annotate;
- my $resolved = $map{$cicuri};
- my $resolved_target = $map{$target_to_annotate} if $do_annotate;
- if ($do_annotate) {
- print "($cicuri, $target_to_annotate) ==> ($resolved + $resolved_target) ($filename)\n";
- } else {
- print "$cicuri ==> $resolved ($filename)\n";
- }
-
- # Retrieves the annotation
-
- if (stat($filename)) {
- print "Using local copy for the annotation\n";
- open(FD, $filename);
- while(<FD>) { $cont .= $_; }
- close(FD);
- } else {
- print "Downloading the annotation\n";
- $ua = LWP::UserAgent->new;
- $request = HTTP::Request->new(GET => "$resolved");
- $response = $ua->request($request, \&callback);
-
- print "Storing file for the annotation\n";
- open(FD, $filename);
- print FD $cont;
- close(FD);
- }
- my $annotation = $cont;
-
- # Retrieves the target to annotate
-
- $cont = "";
- if ($do_annotate) {
- if (stat($filename_target)) {
- print "Using local copy for the file to annotate\n";
- open(FD, $filename_target);
- while(<FD>) { $cont .= $_; }
- close(FD);
- } else {
- print "Downloading the file to annotate\n";
- $ua = LWP::UserAgent->new;
- $request = HTTP::Request->new(GET => "$resolved_target");
- $response = $ua->request($request, \&callback);
-
- print "Storing file for the file to annotate\n";
- open(FD, $filename_target);
- print FD $cont;
- close(FD);
- }
- }
- my $target = $cont;
-
- # Merging the annotation and the target
-
- $target =~ s/<\?xml [^?]*\?>//sg;
- $target =~ s/<!DOCTYPE [^>]*>//sg;
- $annotation =~ s/<\?xml [^?]*\?>//sg;
- $annotation =~ s/<!DOCTYPE [^>]*>//sg;
- my $merged = <<EOT;
-<?xml version="1.0" encoding="UTF-8"?>
-<cicxml uri="$target_to_annotate">
-$target
-$annotation
-</cicxml>
-EOT
-
- # Answering the client
-
- my $res = new HTTP::Response;
- $res->content($merged);
- $c->send_response($res);
- } elsif ($http_method eq 'GET' and $http_path eq "/getwithtypes") {
- my $do_annotate = ($cicuri =~ /\.types$/);
- my $target_to_annotate = $cicuri;
- $target_to_annotate =~ s/(.*)\.types$/$1/ if $do_annotate;
- my $filename = $cicuri;
- $filename =~ s/cic:(.*)/$1/;
- $filename =~ s/theory:(.*)/$1/;
- my $filename_target = $helm_dir.$filename if $do_annotate;
- $filename = $helm_dir.$filename.".xml";
- $filename_target =~ s/(.*)\.types$/$1.xml/ if $do_annotate;
- my $resolved = $map{$cicuri};
- my $resolved_target = $map{$target_to_annotate} if $do_annotate;
- if ($do_annotate) {
- print "GETWITHTYPES!!\n";
- print "($cicuri, $target_to_annotate) ==> ($resolved + $resolved_target) ($filename)\n";
- } else {
- print "$cicuri ==> $resolved ($filename)\n";
- }
-
- # Retrieves the annotation
-
- if (stat($filename)) {
- print "Using local copy for the types\n";
- open(FD, $filename);
- while(<FD>) { $cont .= $_; }
- close(FD);
- } else {
- print "Downloading the types\n";
- $ua = LWP::UserAgent->new;
- $request = HTTP::Request->new(GET => "$resolved");
- $response = $ua->request($request, \&callback);
-
- print "Storing file for the types\n";
- open(FD, $filename);
- print FD $cont;
- close(FD);
- }
- my $annotation = $cont;
-
- # Retrieves the target to annotate
-
- $cont = "";
- my $target;
- if ($do_annotate) {
- if (stat($filename_target)) {
- print "Using local copy for the file to type\n";
- open(FD, $filename_target);
- while(<FD>) { $cont .= $_; }
- close(FD);
- } else {
- print "Downloading the file to type\n";
- $ua = LWP::UserAgent->new;
- $request = HTTP::Request->new(GET => "$resolved_target");
- $response = $ua->request($request, \&callback);
-
- print "Storing file for the file to type\n";
- open(FD, $filename_target);
- print FD $cont;
- close(FD);
- }
- $target = $cont;
- } else {
- $target = $annotation;
- $annotation = "";
- }
-
- # Merging the annotation and the target
-
- $target =~ s/<\?xml [^?]*\?>//sg;
- $target =~ s/<!DOCTYPE [^>]*>//sg;
- $annotation =~ s/<\?xml [^?]*\?>//sg;
- $annotation =~ s/<!DOCTYPE [^>]*>//sg;
- my $merged = <<EOT;
-<?xml version="1.0" encoding="UTF-8"?>
-<cicxml uri="$target_to_annotate">
-$target
-<ALLTYPES>
-$annotation
-</ALLTYPES>
-</cicxml>
-EOT
-
- # Answering the client
-
- my $res = new HTTP::Response;
- $res->content($merged);
- $c->send_response($res);
- } elsif ($http_method eq 'GET' and $http_path eq "/getdtd") {
- my $filename = $cicuri;
- $filename = $helm_dir."/dtd/".$filename;
- print "DTD: $cicuri ==> ($filename)\n";
- if (stat($filename)) {
- print "Using local copy\n";
- open(FD, $filename);
- while(<FD>) { $cont .= $_; }
- close(FD);
- my $res = new HTTP::Response;
- $res->content($cont);
- $c->send_response($res);
- } else {
- die "Could not find DTD!";
- }
- } elsif ($http_method eq 'GET' and $http_path eq "/conf") {
- my $quoted_html_link = $html_link;
- $quoted_html_link =~ s/&/&/g;
- $quoted_html_link =~ s/</</g;
- $quoted_html_link =~ s/>/>/g;
- $quoted_html_link =~ s/'/'/g;
- $quoted_html_link =~ s/"/"/g;
- print "Configuration requested, returned #$quoted_html_link#\n";
- $cont = "<?xml version=\"1.0\"?><html_link>$quoted_html_link</html_link>";
- my $res = new HTTP::Response;
- $res->content($cont);
- $c->send_response($res);
- } else {
- print "INVALID REQUEST!!!!!\n";
- $c->send_error(RC_FORBIDDEN)
- }
- }
- $c->close;
- undef($c);
- print "\nCONNECTION CLOSED\n\n";
- exit;
- } # fork
-}
-
-#================================
-
-sub callback
-{
- my ($data) = @_;
- $cont .= $data;
-}
+++ /dev/null
-#! /bin/sh
-
-export PATH=$PATH:/opt/java/jdk118/bin/
-
-export CLASSPATH=.
-export CLASSPATH=$CLASSPATH:/home/lpadovan/helm/java/xalan_1_1/xalan.jar
-export CLASSPATH=$CLASSPATH:/home/lpadovan/helm/java/xalan_1_1/xerces.jar
-export CLASSPATH=$CLASSPATH:/home/lpadovan/helm/java/saxon-5.3.2/saxon.jar
-
-# Per (my)Coq 6.3.0
-export LD_LIBRARY_PATH=/home/lpadovan/helm/usr/lib/:$LD_LIBRARY_PATH
-export LD_LIBRARY_PATH=/usr/local/lib/gtkmathview:$LD_LIBRARY_PATH
+++ /dev/null
-SIGSEGV received at bfffeacc in /home/cadet/sacerdot/jdk118/lib/linux/native_threads/libjitc.so. Processing terminated
-java full version "JDK 1.1.8 IBM build l118-19991013 (JIT enabled: jitc)"
-args: /home/cadet/sacerdot/jdk118/bin/linux/native_threads/java xaland 12345 12346 examples/style/annotatedcont.xsl examples/style/annotatedpres.xsl examples/style/theory_content.xsl examples/style/theory_pres.xsl
-
-Operating Environment
----------------------
-Host : cadet.
-OS Level : 2.2.14-5.0smp.#1 SMP Tue Mar 7 21:01:40 EST 2000
-glibc Version : 2.1.3
-No. of Procs : 1
-Memory Info:
- total: used: free: shared: buffers: cached:
-Mem: 64503808 55078912 9424896 36126720 1527808 18075648
-Swap: 133885952 7442432 126443520
-MemTotal: 62992 kB
-MemFree: 9204 kB
-MemShared: 35280 kB
-Buffers: 1492 kB
-Cached: 17652 kB
-BigTotal: 0 kB
-BigFree: 0 kB
-SwapTotal: 130748 kB
-SwapFree: 123480 kB
-
-Application Environment
------------------------
-Signal Handlers -
- SIGQUIT : ignored
- SIGILL : sysThreadIDump (libjava.so)
- SIGABRT : sysThreadIDump (libjava.so)
- SIGFPE : sysThreadIDump (libjava.so)
- SIGBUS : sysThreadIDump (libjava.so)
- SIGSEGV : sysThreadIDump (libjava.so)
- SIGPIPE : ignored
- SIGUSR1 : doSuspendLoop (libjava.so)
-
-Environment Variables -
- LESSOPEN=|/usr/bin/lesspipe.sh %s
- SAL_DO_NOT_USE_INVERT50=true
- HISTSIZE=1000
- HOSTNAME=cadet
- LOGNAME=sacerdot
- VISUAL=/usr/bin/emacs
- LD_LIBRARY_PATH=/home/cadet/sacerdot/jdk118/lib/linux/native_threads:/usr/local/lib/gtkmathview:/home/pauillac/coq3/sacerdot/rvplayer5.0
- MAIL=/var/spool/mail/sacerdot
- PAGER=less
- CLASSPATH=.:/usr/share/java/bsf.jar:/usr/share/java/xalan.jar:/usr/share/java/xerces.jar:/home/cadet/sacerdot/jdk118/classes:/home/cadet/sacerdot/jdk118/lib/classes.jar:/home/cadet/sacerdot/jdk118/lib/rt.jar:/home/cadet/sacerdot/jdk118/lib/i18n.jar:/home/cadet/sacerdot/jdk118/lib/classes.zip
- LESSCHARDEF=8bcccbcc18b95.33b.
- ARCH=i586
- PROMPT=cad:
- TERM=xterm
- HOSTTYPE=i386
- PATH=/home/cadet/sacerdot/jdk118/bin:/home/pauillac/coq3/sacerdot/bin/i586:/home/pauillac/coq3/sacerdot/bin:/usr/bin/X11:/usr/bin:/usr/local/bin:/usr/ucb:/usr/bin:/bin:/usr/sbin:/sbin:/usr/games:.
- PRINTER=hp11rv
- HOME=/home/pauillac/coq3/sacerdot
- SHELL=/bin/sh
- ELANLIB=/home/pauillac/coq3/sacerdot/elan-dist.3.00/elanlib
- PILOTPORT=/dev/ttyS1
- TEXINPUTS=:.:/home/pauillac/coq3/sacerdot/lib/latex/inputs:/usr/local/lib/tex/inputs3
- USER=sacerdot
- ENSCRIPT=-Php11rvl -2 -r -B -L66 -k -h
- MANPATH=/usr/man/preformat:/usr/man:/usr/X11/man:/usr/local/man:/home/pauillac/coq3/sacerdot/man
- LESS=-m -e -q -d
- JAVA_HOME=/home/cadet/sacerdot/jdk118
- DISPLAY=:0.0
- MAKEFLAGS=
- HOST=cadet
- OSTYPE=Linux
- NNTPSERVER=news-rocq.inria.fr
- WINDOWID=54525966
- SHLVL=4
- MAKELEVEL=1
- LS_COLORS=no=00:fi=00:di=01;34:ln=01;36:pi=40;33:so=01;35:bd=40;33;01:cd=40;33;01:or=01;05;37;41:mi=01;05;37;41:ex=01;32:*.cmd=01;32:*.exe=01;32:*.com=01;32:*.btm=01;32:*.bat=01;32:*.sh=01;32:*.csh=01;32:*.tar=01;31:*.tgz=01;31:*.arj=01;31:*.taz=01;31:*.lzh=01;31:*.zip=01;31:*.z=01;31:*.Z=01;31:*.gz=01;31:*.bz2=01;31:*.bz=01;31:*.tz=01;31:*.rpm=01;31:*.cpio=01;31:*.jpg=01;35:*.gif=01;35:*.bmp=01;35:*.xbm=01;35:*.xpm=01;35:*.png=01;35:*.tif=01;35:
- EDITOR=/usr/bin/emacs
- MFLAGS=
- CVSROOT=/net/pauillac/constr/ARCHIVE
-
-
-Current Thread Details
-----------------------
- "main" (TID:0x402e62d8, sys_thread_t:0x804abe0)
- Native Thread State: ThreadID: 00000400 Reuse: 1 USER PRIMORDIAL RUNNING
- Native Stack Data : base: bffff47c pointer bffbf96c used(260880) free(-13072)
- ----- Monitors held -----
- ----- Native stack -----
-
-
-
-
-
-
-
-
- ??
- ??
- ??
-
- java_lang_Compiler_start
-
- __irem_trap6
- ------ Java stack ------ () prio=5 *current thread*
- org.apache.xalan.xslt.XSLTEngineImpl.createStylesheetRoot(XSLTEngineImpl.java:715)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- xaland.main(Compiled Code)
-----------------------------------------------------------------------
-
-
-Total Thread Count: 3
-Active Thread Count: 3
-JNI Thread Count: 0
-
-Full thread dump:
- "Async Garbage Collector" (TID:0x402e6238, sys_thread_t:0x8091f50)
- Native Thread State: ThreadID: 00000803 Reuse: 1 DAEMON MONITOR WAIT
- Native Stack Data : base: bf5ffd84 pointer bf5ffb78 used(524) free(247284)
- ----- Monitors held -----
- ----- Native stack -----
- sysMonitorWait
- sysThreadSleep
- threadSleep
- SetOrigArgs
- sysThread_shell
- pthread_detach
- __clone
- ------ Java stack ------ () prio=1
-----------------------------------------------------------------------
-
- "Finalizer thread" (TID:0x402e6288, sys_thread_t:0x8091cd0)
- Native Thread State: ThreadID: 00000402 Reuse: 1 DAEMON MONITOR WAIT
- Native Stack Data : base: bf7ffd84 pointer bf7ffbec used(408) free(247400)
- ----- Monitors held -----
- ----- Native stack -----
- sysMonitorWait - waiting on Finalize me queue lock
- finalizeOnExit
- sysThread_shell
- pthread_detach
- __clone
- ------ Java stack ------ () prio=1
-----------------------------------------------------------------------
-
- "main" (TID:0x402e62d8, sys_thread_t:0x804abe0)
- Native Thread State: ThreadID: 00000400 Reuse: 1 USER PRIMORDIAL RUNNING
- Native Stack Data : base: bffff47c pointer bffbf960 used(260892) free(-13084)
- ----- Monitors held -----
- ----- Native stack -----
-
-
-
-
-
-
-
-
- ??
- ??
- ??
-
- java_lang_Compiler_start
-
- __irem_trap6
- ------ Java stack ------ () prio=5 *current thread*
- org.apache.xalan.xslt.XSLTEngineImpl.createStylesheetRoot(XSLTEngineImpl.java:715)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- xaland.main(Compiled Code)
-----------------------------------------------------------------------
-
-
-System Monitor Status
----------------------
- JIT monitor: unowned.
- JIT monitor: unowned.
- JIT monitor: unowned.
- JIT monitor: unowned.
- JIT monitor: unowned.
- Thread queue lock: unowned.
- Name and type hash table lock: unowned.
- String intern lock: unowned.
- JNI pinning lock: unowned.
- JNI global reference lock: unowned.
- Zip lock: unowned.
- BinClass lock: unowned.
- Class loading lock: unowned.
- Java stack lock: unowned.
- Code rewrite lock: unowned.
- Heap Lock: unowned.
- Has finalization queue lock: unowned.
- Finalize me queue lock: unowned.
- Integer lock access-lock: unowned.
- Monitor cache lock: unowned.
- Monitor registry: unowned.
-
-Object Monitor Status
----------------------
+++ /dev/null
-SIGSEGV received at bfffeacc in /home/cadet/sacerdot/jdk118/lib/linux/native_threads/libjitc.so. Processing terminated
-java full version "JDK 1.1.8 IBM build l118-19991013 (JIT enabled: jitc)"
-args: /home/cadet/sacerdot/jdk118/bin/linux/native_threads/java xaland 12345 12346 examples/style/annotatedcont.xsl examples/style/annotatedpres.xsl examples/style/theory_content.xsl examples/style/theory_pres.xsl
-
-Operating Environment
----------------------
-Host : cadet.
-OS Level : 2.2.14-5.0smp.#1 SMP Tue Mar 7 21:01:40 EST 2000
-glibc Version : 2.1.3
-No. of Procs : 1
-Memory Info:
- total: used: free: shared: buffers: cached:
-Mem: 64503808 55672832 8830976 36130816 1536000 18612224
-Swap: 133885952 7442432 126443520
-MemTotal: 62992 kB
-MemFree: 8624 kB
-MemShared: 35284 kB
-Buffers: 1500 kB
-Cached: 18176 kB
-BigTotal: 0 kB
-BigFree: 0 kB
-SwapTotal: 130748 kB
-SwapFree: 123480 kB
-
-Application Environment
------------------------
-Signal Handlers -
- SIGQUIT : ignored
- SIGILL : sysThreadIDump (libjava.so)
- SIGABRT : sysThreadIDump (libjava.so)
- SIGFPE : sysThreadIDump (libjava.so)
- SIGBUS : sysThreadIDump (libjava.so)
- SIGSEGV : sysThreadIDump (libjava.so)
- SIGPIPE : ignored
- SIGUSR1 : doSuspendLoop (libjava.so)
-
-Environment Variables -
- LESSOPEN=|/usr/bin/lesspipe.sh %s
- SAL_DO_NOT_USE_INVERT50=true
- HISTSIZE=1000
- HOSTNAME=cadet
- LOGNAME=sacerdot
- VISUAL=/usr/bin/emacs
- LD_LIBRARY_PATH=/home/cadet/sacerdot/jdk118/lib/linux/native_threads:/usr/local/lib/gtkmathview:/home/pauillac/coq3/sacerdot/rvplayer5.0
- MAIL=/var/spool/mail/sacerdot
- PAGER=less
- CLASSPATH=.:/usr/share/java/bsf.jar:/usr/share/java/xalan.jar:/usr/share/java/xerces.jar:/home/cadet/sacerdot/jdk118/classes:/home/cadet/sacerdot/jdk118/lib/classes.jar:/home/cadet/sacerdot/jdk118/lib/rt.jar:/home/cadet/sacerdot/jdk118/lib/i18n.jar:/home/cadet/sacerdot/jdk118/lib/classes.zip
- LESSCHARDEF=8bcccbcc18b95.33b.
- ARCH=i586
- PROMPT=cad:
- TERM=xterm
- HOSTTYPE=i386
- PATH=/home/cadet/sacerdot/jdk118/bin:/home/pauillac/coq3/sacerdot/bin/i586:/home/pauillac/coq3/sacerdot/bin:/usr/bin/X11:/usr/bin:/usr/local/bin:/usr/ucb:/usr/bin:/bin:/usr/sbin:/sbin:/usr/games:.
- PRINTER=hp11rv
- HOME=/home/pauillac/coq3/sacerdot
- SHELL=/bin/sh
- ELANLIB=/home/pauillac/coq3/sacerdot/elan-dist.3.00/elanlib
- PILOTPORT=/dev/ttyS1
- TEXINPUTS=:.:/home/pauillac/coq3/sacerdot/lib/latex/inputs:/usr/local/lib/tex/inputs3
- USER=sacerdot
- ENSCRIPT=-Php11rvl -2 -r -B -L66 -k -h
- MANPATH=/usr/man/preformat:/usr/man:/usr/X11/man:/usr/local/man:/home/pauillac/coq3/sacerdot/man
- LESS=-m -e -q -d
- JAVA_HOME=/home/cadet/sacerdot/jdk118
- DISPLAY=:0.0
- MAKEFLAGS=
- HOST=cadet
- OSTYPE=Linux
- NNTPSERVER=news-rocq.inria.fr
- WINDOWID=54525966
- SHLVL=4
- MAKELEVEL=1
- LS_COLORS=no=00:fi=00:di=01;34:ln=01;36:pi=40;33:so=01;35:bd=40;33;01:cd=40;33;01:or=01;05;37;41:mi=01;05;37;41:ex=01;32:*.cmd=01;32:*.exe=01;32:*.com=01;32:*.btm=01;32:*.bat=01;32:*.sh=01;32:*.csh=01;32:*.tar=01;31:*.tgz=01;31:*.arj=01;31:*.taz=01;31:*.lzh=01;31:*.zip=01;31:*.z=01;31:*.Z=01;31:*.gz=01;31:*.bz2=01;31:*.bz=01;31:*.tz=01;31:*.rpm=01;31:*.cpio=01;31:*.jpg=01;35:*.gif=01;35:*.bmp=01;35:*.xbm=01;35:*.xpm=01;35:*.png=01;35:*.tif=01;35:
- EDITOR=/usr/bin/emacs
- MFLAGS=
- CVSROOT=/net/pauillac/constr/ARCHIVE
-
-
-Current Thread Details
-----------------------
- "main" (TID:0x402e62d8, sys_thread_t:0x804abe0)
- Native Thread State: ThreadID: 00000400 Reuse: 1 USER PRIMORDIAL RUNNING
- Native Stack Data : base: bffff47c pointer bffbf96c used(260880) free(-13072)
- ----- Monitors held -----
- ----- Native stack -----
-
-
-
-
-
-
-
-
- ??
- ??
- ??
-
- java_lang_Compiler_start
-
- __irem_trap6
- ------ Java stack ------ () prio=5 *current thread*
- org.apache.xalan.xslt.XSLTEngineImpl.createStylesheetRoot(XSLTEngineImpl.java:715)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- xaland.main(Compiled Code)
-----------------------------------------------------------------------
-
-
-Total Thread Count: 3
-Active Thread Count: 3
-JNI Thread Count: 0
-
-Full thread dump:
- "Async Garbage Collector" (TID:0x402e6238, sys_thread_t:0x8091f50)
- Native Thread State: ThreadID: 00000803 Reuse: 1 DAEMON MONITOR WAIT
- Native Stack Data : base: bf5ffd84 pointer bf5ffb78 used(524) free(247284)
- ----- Monitors held -----
- ----- Native stack -----
- sysMonitorWait
- sysThreadSleep
- threadSleep
- SetOrigArgs
- sysThread_shell
- pthread_detach
- __clone
- ------ Java stack ------ () prio=1
-----------------------------------------------------------------------
-
- "Finalizer thread" (TID:0x402e6288, sys_thread_t:0x8091cd0)
- Native Thread State: ThreadID: 00000402 Reuse: 1 DAEMON MONITOR WAIT
- Native Stack Data : base: bf7ffd84 pointer bf7ffbec used(408) free(247400)
- ----- Monitors held -----
- ----- Native stack -----
- sysMonitorWait - waiting on Finalize me queue lock
- finalizeOnExit
- sysThread_shell
- pthread_detach
- __clone
- ------ Java stack ------ () prio=1
-----------------------------------------------------------------------
-
- "main" (TID:0x402e62d8, sys_thread_t:0x804abe0)
- Native Thread State: ThreadID: 00000400 Reuse: 1 USER PRIMORDIAL RUNNING
- Native Stack Data : base: bffff47c pointer bffbf960 used(260892) free(-13084)
- ----- Monitors held -----
- ----- Native stack -----
-
-
-
-
-
-
-
-
- ??
- ??
- ??
-
- java_lang_Compiler_start
-
- __irem_trap6
- ------ Java stack ------ () prio=5 *current thread*
- org.apache.xalan.xslt.XSLTEngineImpl.createStylesheetRoot(XSLTEngineImpl.java:715)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- org.apache.xalan.xslt.XSLTEngineImpl.processStylesheet(Compiled Code)
- xaland.main(Compiled Code)
-----------------------------------------------------------------------
-
-
-System Monitor Status
----------------------
- JIT monitor: unowned.
- JIT monitor: unowned.
- JIT monitor: unowned.
- JIT monitor: unowned.
- JIT monitor: unowned.
- Thread queue lock: unowned.
- Name and type hash table lock: unowned.
- String intern lock: unowned.
- JNI pinning lock: unowned.
- JNI global reference lock: unowned.
- Zip lock: unowned.
- BinClass lock: unowned.
- Class loading lock: unowned.
- Java stack lock: unowned.
- Code rewrite lock: unowned.
- Heap Lock: unowned.
- Has finalization queue lock: unowned.
- Finalize me queue lock: unowned.
- Integer lock access-lock: unowned.
- Monitor cache lock: unowned.
- Monitor registry: unowned.
-
-Object Monitor Status
----------------------
+++ /dev/null
-#!/usr/bin/perl
-
-while(<STDIN>)
-{
- s/→/->/g;
- s/⇒/=>/g;
- s/λ/\\/g;
- s/Π/||/g;
- print;
-}
+++ /dev/null
-#!/bin/bash
-
-echo `find . -name "*.xml"` | /really_very_local/helm/PARSER/coq_like_pretty_printer/uris_of_filenames.pl > index.txt
+++ /dev/null
-<?xml encoding="ISO-8859-1"?>
-
-<!-- CSC: mio DTD semplificatissimo per la parte presentation di MML -->
-
-<!-- I seguenti presentation elements sono stati tralasciati ;-)
-mspace
-ms
-<mchar>
-<ms>
-mfrac
-msqrt
-mroot
-mstyle
-merror
-mpadded
-mphantom
-msub
-msup
-msubsup
-munder
-mover
-munderover
-mmultiscripts
-mtable
-mtr
-mtd
-maligngroup
-malignmark
-maction
--->
-
-<!-- Dei seguenti elementi, invece, vengono tralasciati quasi tutti gli
- attributi
-⁡
--->
-
-<!ENTITY % Presentation '(mi|mo|mn|mtext|mrow|mfenced)*'>
-
-<!ELEMENT math %Presentation;>
-
-<!ELEMENT mi (#PCDATA)>
-
-<!ELEMENT mo (#PCDATA)>
-
-<!ELEMENT mn (#PCDATA)>
-
-<!ELEMENT mtext (#PCDATA)>
-
-<!ELEMENT mrow %Presentation;>
-
-<!ELEMENT mfenced %Presentation;>
-<!ATTLIST mfenced
- open CDATA #IMPLIED
- close CDATA #IMPLIED
- separators CDATA #IMPLIED>
+++ /dev/null
-type expr =
- Null
- | Mi of string
- | Mo of string
- | Mn of string
- | Mtext of string
- | Mrow of expr list
- | Mfenced of string * string * string * expr list (* open, close, separators *)
-type fragment =
- Math of expr list
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This is a simple gtk interface to the Coq-like pretty printer cicPp for *)
-(* cic terms exported in xml. It uses directly the modules cicPp and *)
-(* cicCcache and indirectly all the other modules (cicParser, cicParser2, *)
-(* cicParser3, getter). *)
-(* The syntax is "gtkInterface[.opt] filename1 ... filenamen" where *)
-(* filenamei is the path-name of an xml file describing a cic term. *)
-(* The terms are loaded in cache and then pretty-printed one at a time and *)
-(* only once, when the user wants to look at it: if the user wants to look at *)
-(* a term again, then the pretty-printed term is showed again, but not *)
-(* recomputed *)
-(* *)
-(******************************************************************************)
-
-(* DEFINITION OF THE URI TREE AND USEFUL FUNCTIONS ON IT *)
-
-type item =
- Dir of string * item list ref
- | File of string * UriManager.uri
-;;
-
-let uritree = ref []
-let theoryuritree = ref []
-
-let get_name =
- function
- Dir (name,_) -> name
- | File (name,_) -> name
-;;
-
-let get_uri =
- function
- Dir _ -> None
- | File (_,uri) -> Some uri
-;;
-
-(* STUFF TO BUILD THE URI TREE *)
-
-exception EmptyUri
-exception DuplicatedUri
-exception ConflictingUris
-
-let insert_in_uri_tree uri =
- let rec aux l =
- function
- [name] ->
- (try
- let _ = List.find (fun item -> name = get_name item) !l in
- raise DuplicatedUri
- with
- Not_found -> l := (File (name,uri))::!l
- )
- | name::tl ->
- (try
- match List.find (fun item -> name = get_name item) !l with
- Dir (_,children) -> aux children tl
- | File _ -> raise ConflictingUris
- with
- Not_found ->
- let children = ref [] in
- l := (Dir (name,children))::!l ;
- aux children tl
- )
- | [] -> raise EmptyUri
- in
- aux
-;;
-
-(* Imperative procedure that builds the two uri trees *)
-let build_uri_tree () =
- let dbh = Dbm.opendbm Configuration.uris_dbm [Dbm.Dbm_rdonly] 0 in
- Dbm.iter
- (fun uri _ ->
- let cicregexp = Str.regexp "cic:"
- and theoryregexp = Str.regexp "theory:" in
- if Str.string_match cicregexp uri 0 then
- let s = Str.replace_first cicregexp "" uri in
- let l = Str.split (Str.regexp "/") s in
- insert_in_uri_tree (UriManager.uri_of_string uri) uritree l
- else if Str.string_match theoryregexp uri 0 then
- let s = Str.replace_first theoryregexp "" uri in
- let l = Str.split (Str.regexp "/") s in
- insert_in_uri_tree (UriManager.uri_of_string uri) theoryuritree l
- ) dbh ;
- Dbm.close dbh
-;;
-
-(* GLOBAL REFERENCES (USED BY CALLBACKS) *)
-
-let annotated_obj = ref None;; (* reference to a couple option where *)
- (* the first component is the current *)
- (* annotated object and the second is *)
- (* the map from ids to annotated targets *)
-let ann = ref (ref None);; (* current annotation *)
-let radio_some_status = ref false;; (* is the radio_some button selected? *)
-
-let theory_visited_uris = ref [];;
-let theory_to_visit_uris = ref [];;
-let visited_uris = ref [];;
-let to_visit_uris = ref [];;
-
-(* CALLBACKS *)
-
-exception NoCurrentUri;;
-exception NoNextOrPrevUri;;
-exception GtkInterfaceInternalError;;
-
-let theory_get_current_uri () =
- match !theory_visited_uris with
- [] -> raise NoCurrentUri
- | uri::_ -> uri
-;;
-
-let get_current_uri () =
- match !visited_uris with
- [] -> raise NoCurrentUri
- | uri::_ -> uri
-;;
-
-let get_annotated_obj () =
- match !annotated_obj with
- None ->
- let (annobj, ids_to_targets,_) =
- (CicCache.get_annobj (get_current_uri ()))
- in
- annotated_obj := Some (annobj, ids_to_targets) ;
- (annobj, ids_to_targets)
- | Some annobj -> annobj
-;;
-
-let filename_of_uri uri =
- Getter.get uri
-;;
-
-let theory_update_output rendering_window uri =
- rendering_window#label#set_text (UriManager.string_of_uri uri) ;
- ignore (rendering_window#errors#delete_text 0 rendering_window#errors#length) ;
- let mmlfile = XsltProcessor.process uri true "theory" in
- rendering_window#output#load mmlfile
-;;
-
-let update_output rendering_window uri =
- rendering_window#label#set_text (UriManager.string_of_uri uri) ;
- ignore (rendering_window#errors#delete_text 0 rendering_window#errors#length) ;
- let mmlfile = XsltProcessor.process uri true "cic" in
- rendering_window#output#load mmlfile
-;;
-
-let theory_next rendering_window () =
- match !theory_to_visit_uris with
- [] -> raise NoNextOrPrevUri
- | uri::tl ->
- theory_to_visit_uris := tl ;
- theory_visited_uris := uri::!theory_visited_uris ;
- theory_update_output rendering_window uri ;
- rendering_window#prevb#misc#set_sensitive true ;
- if tl = [] then
- rendering_window#nextb#misc#set_sensitive false
-;;
-
-let next rendering_window () =
- match !to_visit_uris with
- [] -> raise NoNextOrPrevUri
- | uri::tl ->
- to_visit_uris := tl ;
- visited_uris := uri::!visited_uris ;
- annotated_obj := None ;
- update_output rendering_window uri ;
- rendering_window#prevb#misc#set_sensitive true ;
- if tl = [] then
- rendering_window#nextb#misc#set_sensitive false
-;;
-
-let theory_prev rendering_window () =
- match !theory_visited_uris with
- [] -> raise NoCurrentUri
- | [_] -> raise NoNextOrPrevUri
- | uri::(uri'::tl as newvu) ->
- theory_visited_uris := newvu ;
- theory_to_visit_uris := uri::!theory_to_visit_uris ;
- theory_update_output rendering_window uri' ;
- rendering_window#nextb#misc#set_sensitive true ;
- if tl = [] then
- rendering_window#prevb#misc#set_sensitive false
-;;
-
-let prev rendering_window () =
- match !visited_uris with
- [] -> raise NoCurrentUri
- | [_] -> raise NoNextOrPrevUri
- | uri::(uri'::tl as newvu) ->
- visited_uris := newvu ;
- to_visit_uris := uri::!to_visit_uris ;
- annotated_obj := None ;
- update_output rendering_window uri' ;
- rendering_window#nextb#misc#set_sensitive true ;
- if tl = [] then
- rendering_window#prevb#misc#set_sensitive false
-;;
-
-(* called when an hyperlink is clicked *)
-let jump rendering_window s =
- let uri = UriManager.uri_of_string s in
- rendering_window#show () ;
- rendering_window#prevb#misc#set_sensitive true ;
- rendering_window#nextb#misc#set_sensitive false ;
- visited_uris := uri::!visited_uris ;
- to_visit_uris := [] ;
- annotated_obj := None ;
- update_output rendering_window uri
-;;
-
-let changefont rendering_window () =
- rendering_window#output#set_font_size rendering_window#spinb#value_as_int
-;;
-
-
-let theory_selection_changed rendering_window uri () =
- match uri with
- None -> ()
- | Some uri' ->
- if !theory_visited_uris <> [] then
- rendering_window#prevb#misc#set_sensitive true ;
- rendering_window#nextb#misc#set_sensitive false ;
- theory_visited_uris := uri'::!theory_visited_uris ;
- theory_to_visit_uris := [] ;
- rendering_window#show () ;
- theory_update_output rendering_window uri'
-;;
-
-let selection_changed rendering_window uri () =
- match uri with
- None -> ()
- | Some uri' ->
- if !visited_uris <> [] then
- rendering_window#prevb#misc#set_sensitive true ;
- rendering_window#nextb#misc#set_sensitive false ;
- visited_uris := uri'::!visited_uris ;
- to_visit_uris := [] ;
- annotated_obj := None ;
- rendering_window#show () ;
- update_output rendering_window uri'
-;;
-
-(* CSC: unificare con la creazione la prima volta *)
-let rec updateb_pressed theory_rendering_window rendering_window
- (sw1, sw ,(hbox : GPack.box)) mktree ()
-=
- Getter.update () ;
- (* let's empty the uri trees and rebuild them *)
- uritree := [] ;
- theoryuritree := [] ;
- build_uri_tree () ;
- hbox#remove !sw1#coerce ;
- hbox#remove !sw#coerce ;
-
- let sw3 =
- GBin.scrolled_window ~width:250 ~height:600
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let tree1 =
- GTree.tree ~selection_mode:`BROWSE ~packing:sw3#add_with_viewport () in
- let tree_item1 = GTree.tree_item ~label:"theory:/" ~packing:tree1#append () in
- sw1 := sw3 ;
- ignore(tree_item1#connect#select
- (theory_selection_changed theory_rendering_window None)) ;
- mktree theory_selection_changed theory_rendering_window tree_item1
- (Dir ("theory:/",theoryuritree)) ;
-
- let sw2 =
- GBin.scrolled_window ~width:250 ~height:600
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let tree =
- GTree.tree ~selection_mode:`BROWSE ~packing:sw2#add_with_viewport () in
- let tree_item = GTree.tree_item ~label:"cic:/" ~packing:tree#append () in
- sw := sw2 ;
- ignore(tree_item#connect#select (selection_changed rendering_window None)) ;
- mktree selection_changed rendering_window tree_item (Dir ("cic:/",uritree))
-;;
-
-let theory_check rendering_window () =
- let output =
- try
- TheoryTypeChecker.typecheck (theory_get_current_uri ());
- "Type Checking was successful"
- with
- TheoryTypeChecker.NotWellTyped s ->
- "Type Checking was NOT successful:\n\t" ^ s
- in
- (* next "cast" can't got rid of, but I don't know why *)
- let errors = (rendering_window#errors : GEdit.text) in
- let _ = errors#delete_text 0 errors#length in
- errors#insert output
-;;
-
-let check rendering_window () =
- let output =
- try
- CicTypeChecker.typecheck (get_current_uri ());
- "Type Checking was successful"
- with
- CicTypeChecker.NotWellTyped s -> "Type Checking was NOT successful:\n\t" ^ s
- in
- (* next "cast" can't got rid of, but I don't know why *)
- let errors = (rendering_window#errors : GEdit.text) in
- let _ = errors#delete_text 0 errors#length in
- errors#insert output
-;;
-
-let annotateb_pressed rendering_window annotation_window () =
- let xpath = (rendering_window#output#get_selection : string option) in
- match xpath with
- None -> (rendering_window#errors : GEdit.text)#insert "\nNo selection!\n"
- | Some xpath ->
- try
- let annobj = get_annotated_obj ()
- (* next "cast" can't got rid of, but I don't know why *)
- and annotation = (annotation_window#annotation : GEdit.text) in
- ann := CicXPath.get_annotation annobj xpath ;
- CicAnnotationHinter.create_hints annotation_window annobj xpath ;
- annotation#delete_text 0 annotation#length ;
- begin
- match !(!ann) with
- None ->
- annotation#misc#set_sensitive false ;
- annotation_window#radio_none#set_active true ;
- radio_some_status := false
- | Some ann' ->
- annotation#insert ann' ;
- annotation#misc#set_sensitive true ;
- annotation_window#radio_some#set_active true ;
- radio_some_status := true
- end ;
- GMain.Grab.add (annotation_window#window_to_annotate#coerce) ;
- annotation_window#show () ;
- with
- e ->
- (* next "cast" can't got rid of, but I don't know why *)
- let errors = (rendering_window#errors : GEdit.text) in
- errors#insert ("\n" ^ Printexc.to_string e ^ "\n")
-;;
-
-(* called when the annotation is confirmed *)
-let save_annotation annotation =
- if !radio_some_status then
- !ann := Some (annotation#get_chars 0 annotation#length)
- else
- !ann := None ;
- match !annotated_obj with
- None -> raise GtkInterfaceInternalError
- | Some (annobj,_) ->
- let uri = get_current_uri () in
- let annxml = Annotation2Xml.pp_annotation annobj uri in
- Xml.pp annxml (Some (fst (Getter.get_ann_file_name_and_uri uri)))
-;;
-
-let parse_no_cache uri =
- let module U = UriManager in
- XsltProcessor.process uri false "cic"
-;;
-
-
-(* STUFF TO BUILD THE GTK INTERFACE *)
-
-(* Stuff to build the tree window *)
-
-(* selection_changed is actually selection_changed or theory_selection_changed*)
-let mktree selection_changed rendering_window =
- let rec aux treeitem =
- function
- Dir (dirname, content) ->
- let subtree = GTree.tree () in
- treeitem#set_subtree subtree ;
- List.iter
- (fun ti ->
- let label = get_name ti
- and uri = get_uri ti in
- let treeitem2 = GTree.tree_item ~label:label () in
- subtree#append treeitem2 ;
- ignore(treeitem2#connect#select
- (selection_changed rendering_window uri)) ;
- aux treeitem2 ti
- ) !content
- | _ -> ()
- in
- aux
-;;
-
-class annotation_window output label =
- let window_to_annotate =
- GWindow.window ~title:"Annotating environment" ~border_width:2 () in
- let hbox1 =
- GPack.hbox ~packing:window_to_annotate#add () in
- let vbox1 =
- GPack.vbox ~packing:(hbox1#pack ~padding:5) () in
- let hbox2 =
- GPack.hbox ~packing:(vbox1#pack ~expand:false ~fill:false ~padding:5) () in
- let radio_some = GButton.radio_button ~label:"Annotation below"
- ~packing:(hbox2#pack ~expand:false ~fill:false ~padding:5) () in
- let radio_none = GButton.radio_button ~label:"No annotation"
- ~group:radio_some#group
- ~packing:(hbox2#pack ~expand:false ~fill:false ~padding:5)
- ~active:true () in
- let annotation = GEdit.text ~editable:true ~width:400 ~height:180
- ~packing:(vbox1#pack ~padding:5) () in
- let table =
- GPack.table ~rows:3 ~columns:3 ~packing:(vbox1#pack ~padding:5) () in
- let annotation_hints =
- Array.init 9
- (function i ->
- GButton.button ~label:("Hint " ^ string_of_int i)
- ~packing:(table#attach ~left:(i mod 3) ~top:(i / 3)) ()
- ) in
- let vbox2 =
- GPack.vbox ~packing:(hbox1#pack ~expand:false ~fill:false ~padding:5) () in
- let confirmb =
- GButton.button ~label:"O.K."
- ~packing:(vbox2#pack ~expand:false ~fill:false ~padding:5) () in
- let abortb =
- GButton.button ~label:"Abort"
- ~packing:(vbox2#pack ~expand:false ~fill:false ~padding:5) () in
-object (self)
- method window_to_annotate = window_to_annotate
- method annotation = annotation
- method radio_some = radio_some
- method radio_none = radio_none
- method annotation_hints = annotation_hints
- method output = (output : GMathView.math_view)
- method show () = window_to_annotate#show ()
- initializer
- (* signal handlers here *)
- ignore (window_to_annotate#event#connect#delete
- (fun _ ->
- window_to_annotate#misc#hide () ;
- GMain.Grab.remove (window_to_annotate#coerce) ;
- true
- )) ;
- ignore (confirmb#connect#clicked
- (fun () ->
- window_to_annotate#misc#hide () ;
- save_annotation annotation ;
- GMain.Grab.remove (window_to_annotate#coerce) ;
- let new_current_uri =
- (snd (Getter.get_ann_file_name_and_uri (get_current_uri ())))
- in
- visited_uris := new_current_uri::(List.tl !visited_uris) ;
- label#set_text (UriManager.string_of_uri new_current_uri) ;
- output#load (parse_no_cache new_current_uri)
- )) ;
- ignore (abortb#connect#clicked
- (fun () ->
- window_to_annotate#misc#hide () ;
- GMain.Grab.remove (window_to_annotate#coerce)
- ));
- ignore (radio_some#connect#clicked
- (fun () -> annotation#misc#set_sensitive true ; radio_some_status := true)) ;
- ignore (radio_none #connect#clicked
- (fun () ->
- annotation#misc#set_sensitive false;
- radio_some_status := false)
- )
-end;;
-
-class rendering_window annotation_window output (label : GMisc.label) =
- let window =
- GWindow.window ~title:"MathML viewer" ~border_width:2 () in
- let vbox =
- GPack.vbox ~packing:window#add () in
- let _ = vbox#pack ~expand:false ~fill:false ~padding:5 label#coerce in
- let paned =
- GPack.paned `HORIZONTAL ~packing:(vbox#pack ~padding:5) () in
- let scrolled_window0 =
- GBin.scrolled_window ~border_width:10 ~packing:paned#add1 () in
- let _ = scrolled_window0#add output#coerce in
- let scrolled_window =
- GBin.scrolled_window
- ~border_width:10 ~packing:paned#add2 ~width:240 ~height:100 () in
- let errors = GEdit.text ~packing:scrolled_window#add_with_viewport () in
- let hbox =
- GPack.hbox ~packing:(vbox#pack ~expand:false ~fill:false ~padding:5) () in
- let prevb =
- GButton.button ~label:"Prev"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let nextb =
- GButton.button ~label:"Next"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let checkb =
- GButton.button ~label:"Check"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let annotateb =
- GButton.button ~label:"Annotate"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let spinb =
- let sadj =
- GData.adjustment ~value:14.0 ~lower:5.0 ~upper:50.0 ~step_incr:1.0 ()
- in
- GEdit.spin_button
- ~adjustment:sadj ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5)
- () in
- let closeb =
- GButton.button ~label:"Close"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
-object(self)
- method nextb = nextb
- method prevb = prevb
- method label = label
- method spinb = spinb
- method output = (output : GMathView.math_view)
- method errors = errors
- method show () = window#show ()
- initializer
- nextb#misc#set_sensitive false ;
- prevb#misc#set_sensitive false ;
-
- (* signal handlers here *)
- ignore(output#connect#jump (jump self)) ;
- ignore(nextb#connect#clicked (next self)) ;
- ignore(prevb#connect#clicked (prev self)) ;
- ignore(checkb#connect#clicked (check self)) ;
- ignore(spinb#connect#changed (changefont self)) ;
- ignore(closeb#connect#clicked window#misc#hide) ;
- ignore(annotateb#connect#clicked (annotateb_pressed self annotation_window)) ;
- ignore(window#event#connect#delete (fun _ -> window#misc#hide () ; true ))
-end;;
-
-class theory_rendering_window rendering_window =
- let window =
- GWindow.window ~title:"MathML theory viewer" ~border_width:2 () in
- let vbox =
- GPack.vbox ~packing:window#add () in
- let label =
- GMisc.label ~text:"???"
- ~packing:(vbox#pack ~expand:false ~fill:false ~padding:5) () in
- let paned =
- GPack.paned `HORIZONTAL ~packing:(vbox#pack ~padding:5) () in
- let scrolled_window0 =
- GBin.scrolled_window ~border_width:10 ~packing:paned#add1 () in
- let output =
- GMathView.math_view ~width:400 ~height:380 ~packing:scrolled_window0#add () in
- let scrolled_window =
- GBin.scrolled_window
- ~border_width:10 ~packing:paned#add2 ~width:240 ~height:100 () in
- let errors = GEdit.text ~packing:scrolled_window#add_with_viewport () in
- let hbox =
- GPack.hbox ~packing:(vbox#pack ~expand:false ~fill:false ~padding:5) () in
- let prevb =
- GButton.button ~label:"Prev"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let nextb =
- GButton.button ~label:"Next"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let checkb =
- GButton.button ~label:"Check"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let spinb =
- let sadj =
- GData.adjustment ~value:14.0 ~lower:5.0 ~upper:50.0 ~step_incr:1.0 ()
- in
- GEdit.spin_button
- ~adjustment:sadj ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5)
- () in
- let closeb =
- GButton.button ~label:"Close"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
-object(self)
- method nextb = nextb
- method prevb = prevb
- method label = label
- method output = (output : GMathView.math_view)
- method errors = errors
- method spinb = spinb
- method show () = window#show ()
- initializer
- nextb#misc#set_sensitive false ;
- prevb#misc#set_sensitive false ;
-
- (* signal handlers here *)
- ignore(output#connect#jump (jump rendering_window)) ;
- ignore(nextb#connect#clicked (theory_next self)) ;
- ignore(prevb#connect#clicked (theory_prev self)) ;
- ignore(checkb#connect#clicked (theory_check self)) ;
- ignore(spinb#connect#changed (changefont self)) ;
- ignore(closeb#connect#clicked window#misc#hide) ;
- ignore(window#event#connect#delete (fun _ -> window#misc#hide () ; true ))
-end;;
-
-(* CSC: fare in modo che i due alberi vengano svuotati invece che distrutti *)
-class selection_window theory_rendering_window rendering_window =
- let label = "cic:/" in
- let theorylabel = "theory:/" in
- let win = GWindow.window ~title:"Known uris" ~border_width:2 () in
- let vbox = GPack.vbox ~packing:win#add () in
- let hbox1 = GPack.hbox ~packing:(vbox#pack ~padding:5) () in
- let sw1 = GBin.scrolled_window ~width:250 ~height:600
- ~packing:(hbox1#pack ~padding:5) () in
- let tree1 =
- GTree.tree ~selection_mode:`BROWSE ~packing:sw1#add_with_viewport () in
- let tree_item1 =
- GTree.tree_item ~label:theorylabel ~packing:tree1#append () in
- let sw = GBin.scrolled_window ~width:250 ~height:600
- ~packing:(hbox1#pack ~padding:5) () in
- let tree =
- GTree.tree ~selection_mode:`BROWSE ~packing:sw#add_with_viewport () in
- let tree_item =
- GTree.tree_item ~label:label ~packing:tree#append () in
- let hbox =
- GPack.hbox ~packing:(vbox#pack ~expand:false ~fill:false ~padding:5) () in
- let updateb =
- GButton.button ~label:"Update"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
- let quitb =
- GButton.button ~label:"Quit"
- ~packing:(hbox#pack ~expand:false ~fill:false ~padding:5) () in
-object (self)
- method show () = win#show ()
- initializer
- mktree theory_selection_changed theory_rendering_window tree_item1
- (Dir ("theory:/",theoryuritree));
- mktree selection_changed rendering_window tree_item
- (Dir ("cic:/",uritree));
-
- (* signal handlers here *)
- ignore (tree_item1#connect#select
- ~callback:(theory_selection_changed theory_rendering_window None)) ;
- ignore (tree_item#connect#select
- ~callback:(selection_changed rendering_window None)) ;
- ignore (win#connect#destroy ~callback:GMain.Main.quit) ;
- ignore (quitb#connect#clicked GMain.Main.quit) ;
- ignore(updateb#connect#clicked (updateb_pressed
- theory_rendering_window rendering_window (ref sw1, ref sw, hbox1) mktree))
-end;;
-
-
-(* MAIN *)
-
-let _ =
- build_uri_tree () ;
- let output = GMathView.math_view ~width:400 ~height:380 ()
- and label = GMisc.label ~text:"???" () in
- let annotation_window = new annotation_window output label in
- let rendering_window = new rendering_window annotation_window output label in
- let theory_rendering_window = new theory_rendering_window rendering_window in
- let selection_window =
- new selection_window theory_rendering_window rendering_window
- in
- selection_window#show () ;
- GMain.Main.main ()
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 11/10/2000 *)
-(* *)
-(* *)
-(******************************************************************************)
-
-let resolve =
- function
- "http://localhost:8081/getdtd?url=cic.dtd" ->
- Configuration.dtd_dir ^ "/cic.dtd"
- | "http://localhost:8081/getdtd?url=maththeory.dtd" ->
- Configuration.dtd_dir ^ "/maththeory.dtd"
- | "http://localhost:8081/getdtd?url=annotations.dtd" ->
- Configuration.dtd_dir ^ "/annotations.dtd"
- | s -> s
-;;
-
-let url_syntax =
- let enable_if =
- function
- `Not_recognized -> Neturl.Url_part_not_recognized
- | `Allowed -> Neturl.Url_part_allowed
- | `Required -> Neturl.Url_part_required
- in
- { Neturl.null_url_syntax with
- Neturl.url_enable_scheme = enable_if `Allowed;
- Neturl.url_enable_host = enable_if `Allowed;
- Neturl.url_enable_path = Neturl.Url_part_required;
- Neturl.url_accepts_8bits = true;
- }
-;;
-
-let file_url_of_id xid =
- let file_url_of_sysname sysname =
- (* By convention, we can assume that sysname is a URL conforming
- * to RFC 1738 with the exception that it may contain non-ASCII
- * UTF-8 characters.
- *)
- try
- Neturl.url_of_string url_syntax sysname
- (* may raise Malformed_URL *)
- with
- Neturl.Malformed_URL -> raise Pxp_reader.Not_competent
- in
- let url =
- match xid with
- Pxp_types.Anonymous -> raise Pxp_reader.Not_competent
- | Pxp_types.Public (_,sysname) ->
- let sysname = resolve sysname in
- if sysname <> "" then file_url_of_sysname sysname
- else raise Pxp_reader.Not_competent
- | Pxp_types.System sysname ->
- let sysname = resolve sysname in
- file_url_of_sysname sysname
- in
- let scheme =
- try Neturl.url_scheme url with Not_found -> "file" in
- let host =
- try Neturl.url_host url with Not_found -> "" in
-
- if scheme <> "file" then raise Pxp_reader.Not_competent;
- if host <> "" && host <> "localhost" then raise Pxp_reader.Not_competent;
-
- url
-;;
-
-let from_file ?system_encoding utf8_filename =
-
- let r =
- new Pxp_reader.resolve_as_file
- ?system_encoding:system_encoding
- ~url_of_id:file_url_of_id
- ()
- in
-
- let utf8_abs_filename =
- if utf8_filename <> "" && utf8_filename.[0] = '/' then
- utf8_filename
- else
- Sys.getcwd() ^ "/" ^ utf8_filename
- in
-
- let syntax = { Neturl.ip_url_syntax with Neturl.url_accepts_8bits = true } in
- let url = Neturl.make_url
- ~scheme:"file"
- ~host:"localhost"
- ~path:(Neturl.split_path utf8_abs_filename)
- syntax
- in
-
- let xid = Pxp_types.System (Neturl.string_of_url url) in
-
-
- Pxp_yacc.ExtID(xid, r)
-;;
-
-
+++ /dev/null
-let read_from_stdin = ref false;;
-let uris_in_input = ref false;;
-let reduction_only = ref false;;
-
-let parse uri =
- print_endline ("^^^" ^ uri ^ "^^^") ;
- print_string (CicPp.ppobj (CicCache.get_obj (UriManager.uri_of_string uri))) ;
- print_endline ("\n$$$" ^ uri ^ "$$$\n")
-;;
-
-let uri_of_filename fn =
- if !uris_in_input then fn
- else
- let uri =
- Str.replace_first (Str.regexp (Str.quote Configuration.helm_dir)) "cic:" fn
- in
- let uri' = Str.replace_first (Str.regexp "\.xml$") "" uri in
- uri'
-;;
-
-(* filenames are read from command line and converted to uris via *)
-(* uri_of_filenames; then the cic terms are load in cache via *)
-(* CicCache.get_obj and then pretty printed via CicPp.ppobj *)
-
-exception NotADefinition;;
-
-let main () =
- let files = ref [] in
- Arg.parse
- ["-stdin", Arg.Set read_from_stdin, "Read from stdin" ;
- "-uris", Arg.Set uris_in_input, "Read uris, not filenames" ;
- "-update", Arg.Unit Getter.update, "Update the getter view of the world" ;
- "-reduction", Arg.Set reduction_only, "Do reduction instead of tyepchecking"]
- (fun x -> files := (uri_of_filename x) :: !files)
- "
-usage: experiment file ...
-
-List of options:";
- if !read_from_stdin then
- begin
- try
- while true do
- let l = Str.split (Str.regexp " ") (read_line ()) in
- List.iter (fun x -> files := (uri_of_filename x) :: !files) l
- done
- with
- End_of_file -> ()
- end ;
- files := List.rev !files;
- List.iter
- (function x ->
- print_string x ;
- flush stdout ;
- (try
- if !reduction_only then
- match CicCache.get_obj (UriManager.uri_of_string x) with
- Cic.Definition (_,bo,_,_) ->
- CicTypeChecker.typecheck (UriManager.uri_of_string x) ;
- ignore (CicReduction.whd bo)
- | _ -> raise NotADefinition
- else
- CicTypeChecker.typecheck (UriManager.uri_of_string x)
- with
- e -> print_newline () ; flush stdout ; raise e ) ;
- print_endline " OK!" ;
- flush stdout
- ) !files
-;;
-
-main ();;
+++ /dev/null
-http://caristudenti.students.cs.unibo.it/~sacerdot/helm
-http://pagadebit.students.cs.unibo.it/really_very_local/helm/PARSER/examples
+++ /dev/null
-http://rigoletto.casamia.csc/helm1/coq
-http://rigoletto.casamia.csc/helm2/coq
+++ /dev/null
-http://phd.cs.unibo.it/helm/PARSER/examples
-http://caristudenti.students.cs.unibo.it/~sacerdot/helm
+++ /dev/null
-type theory_elem =
- Theorem of string (* uri *)
- | Definition of string (* uri *)
- | Axiom of string (* uri *)
- | Variable of string (* uri *)
- | Section of string * theory_elem list (* uri, subtheory *)
-and theory =
- string * theory_elem list (* uri, subtheory *)
-;;
+++ /dev/null
-type check_status = Checked | Unchecked;;
-
-let hashtable = Hashtbl.create 17;;
-
-let get_term_and_type_checking_info uri =
- try
- Hashtbl.find hashtable uri
- with
- Not_found ->
- let filename = Getter.get uri in
- let term = TheoryParser.theory_of_xml filename in
- Hashtbl.add hashtable uri (term, Unchecked) ;
- (term, Unchecked)
-;;
-
-
-let get_theory uri =
- fst (get_term_and_type_checking_info uri)
-;;
-
-let is_type_checked uri =
- match snd (get_term_and_type_checking_info uri) with
- Checked -> true
- | Unchecked -> false
-;;
-
-let set_type_checking_info uri =
- match Hashtbl.find hashtable uri with
- (term, _) ->
- Hashtbl.remove hashtable uri ;
- Hashtbl.add hashtable uri (term, Checked)
-;;
+++ /dev/null
-exception Warnings;;
-
-class warner =
- object
- method warn w =
- print_endline ("WARNING: " ^ w) ;
- (raise Warnings : unit)
- end
-;;
-
-exception EmptyUri;;
-
-let theory_of_xml filename =
- let module Y = Pxp_yacc in
- try
- let d =
- let config = {Y.default_config with Y.warner = new warner} in
- Y.parse_document_entity config
-(*PXP (Y.ExtID (Pxp_types.System filename,
- new Pxp_reader.resolve_as_file ~url_of_id ()))
-*) (PxpUriResolver.from_file filename)
- Y.default_spec
- in
- TheoryParser2.get_theory d#root
- with
- e ->
- print_endline (Pxp_types.string_of_exn e) ;
- raise e
-;;
+++ /dev/null
-exception IllFormedXml of int;;
-
-(* Utility functions that transform a Pxp attribute into something useful *)
-
-let string_of_attr a =
- let module T = Pxp_types in
- match a with
- T.Value s -> s
- | _ -> raise (IllFormedXml 0)
-
-let get_theory n =
- let module D = Pxp_document in
- let module T = Theory in
- let rec get_theory_elem n =
- let ntype = n # node_type in
- match ntype with
- D.T_element "THEOREM" ->
- let uri = string_of_attr (n # attribute "uri") in
- T.Theorem uri
- | D.T_element "DEFINITION" ->
- let uri = string_of_attr (n # attribute "uri") in
- T.Definition uri
- | D.T_element "AXIOM" ->
- let uri = string_of_attr (n # attribute "uri") in
- T.Axiom uri
- | D.T_element "VARIABLE" ->
- let uri = string_of_attr (n # attribute "uri") in
- T.Variable uri
- | D.T_element "SECTION" ->
- let uri = string_of_attr (n # attribute "uri")
- and subtheory = List.map get_theory_elem (n # sub_nodes) in
- T.Section (uri, subtheory)
- | D.T_element _ | D.T_data | _ ->
- raise (IllFormedXml 1)
- in
- match n # node_type with
- D.T_element "Theory" ->
- let uri = string_of_attr (n # attribute "uri") in
- (uri, List.map get_theory_elem (n # sub_nodes))
- | _ -> raise (IllFormedXml 2)
-;;
+++ /dev/null
-exception NotWellTyped of string;;
-
-let typecheck uri =
- let rec typecheck_term curi t =
- let module T = Theory in
- let module P = CicTypeChecker in
- let module C = CicCache in
- let module U = UriManager in
- let obj_typecheck uri =
- try
- P.typecheck (U.uri_of_string uri)
- with
- P.NotWellTyped s ->
- raise (NotWellTyped
- ("Type Checking was NOT successfull due to an error during " ^
- "type-checking of term " ^ uri ^ ":\n\n" ^ s))
- in
- match t with
- T.Theorem uri -> obj_typecheck (curi ^ "/" ^ uri)
- | T.Definition uri -> obj_typecheck (curi ^ "/" ^ uri)
- | T.Axiom uri -> obj_typecheck (curi ^ "/" ^ uri)
- | T.Variable uri -> obj_typecheck (curi ^ "/" ^ uri)
- | T.Section (uri,l) -> typecheck_theory l (curi ^ "/" ^ uri)
- and typecheck_theory l curi =
- List.iter (typecheck_term curi) l
- in
- let (uri, l) = TheoryCache.get_theory uri in
- typecheck_theory l uri
-;;
+++ /dev/null
-#!/usr/bin/perl
-
-while(<STDIN>)
-{
- s/helm:xref="[^"]*"//g;
- s/helm:xref='[^']*'//g;
- print;
-}
+++ /dev/null
-#!/bin/bash
-
-echo "****" $1
-cp $1 /tmp/pippo
-cat /tmp/pippo | ./toglie_helm_xref.pl > $1
+++ /dev/null
-(* "cic:/a/b/c.con" => [| "cic:/a" ; "cic:/a/b" ; "cic:/a/b/c.con" ; "c" |] *)
-type uri = string array;;
-
-let eq uri1 uri2 =
- uri1 == uri2
-;;
-
-let string_of_uri uri = uri.(Array.length uri - 2);;
-let name_of_uri uri = uri.(Array.length uri - 1);;
-let buri_of_uri uri = uri.(Array.length uri - 3);;
-let depth_of_uri uri = Array.length uri - 2;;
-
-(*CSC: ora e' diventato poco efficiente, migliorare *)
-let relative_depth curi uri cookingsno =
- let rec length_of_current_prefix l1 l2 =
- match (l1, l2) with
- (he1::tl1, he2::tl2) when he1 == he2 ->
- 1 + length_of_current_prefix tl1 tl2
- | (_,_) -> 0
- in
- depth_of_uri uri -
- length_of_current_prefix
- (Array.to_list (Array.sub curi 0 (Array.length curi - (2 + cookingsno))))
- (Array.to_list (Array.sub uri 0 (Array.length uri - 2)))
- (*CSC: vecchio codice da eliminare
- if eq curi uri then 0
- else
- depth_of_uri uri -
- length_of_current_prefix (Array.to_list curi) (Array.to_list uri)
- *)
-;;
-
-module OrderedStrings =
- struct
- type t = string
- let compare (s1 : t) (s2 : t) = compare s1 s2
- end
-;;
-
-module SetOfStrings = Map.Make(OrderedStrings);;
-
-(*CSC: commento obsoleto ed errato *)
-(* Invariant: the map is the identity function, *)
-(* i.e. (SetOfStrings.find str !set_of_uri) == str *)
-let set_of_uri = ref SetOfStrings.empty;;
-let set_of_prefixes = ref SetOfStrings.empty;;
-
-(* similar to uri_of_string, but used for prefixes of uris *)
-let normalize prefix =
- try
- SetOfStrings.find prefix !set_of_prefixes
- with
- Not_found ->
- set_of_prefixes := SetOfStrings.add prefix prefix !set_of_prefixes ;
- prefix
-;;
-
-exception IllFormedUri of string;;
-
-let mk_prefixes str =
- let rec aux curi =
- function
- [he] ->
- let prefix_uri = curi ^ "/" ^ he
- and name = List.hd (Str.split (Str.regexp "\.") he) in
- [ normalize prefix_uri ; name ]
- | he::tl ->
- let prefix_uri = curi ^ "/" ^ he in
- (normalize prefix_uri)::(aux prefix_uri tl)
- | _ -> raise (IllFormedUri str)
- in
- let tokens = (Str.split (Str.regexp "/") str) in
- (* ty = "cic:" *)
- let (ty, sp) = (List.hd tokens, List.tl tokens) in
- aux ty sp
-;;
-
-let uri_of_string str =
- try
- SetOfStrings.find str !set_of_uri
- with
- Not_found ->
- let uri = Array.of_list (mk_prefixes str) in
- set_of_uri := SetOfStrings.add str uri !set_of_uri ;
- uri
-;;
+++ /dev/null
-type uri = string;;
-
-let eq uri1 uri2 =
- uri1 = uri2
-;;
-
-let string_of_uri uri = uri;;
-let uri_of_string str = str;;
-
-let name_of_uri uri =
- let l = Str.split (Str.regexp "/") uri in
- let name_suf = List.nth l (List.length l - 1) in
- List.hd (Str.split (Str.regexp "\.") name_suf)
-;;
-
-let depth_of_uri uri =
- List.length (Str.split (Str.regexp "/") uri) - 2
-;;
+++ /dev/null
-(* "cic:/a/b/c.con" => [| "cic:/a" ; "cic:/a/b" ; "cic:/a/b/c.con" ; "c" |] *)
-type uri = string array;;
-
-let eq uri1 uri2 =
- uri1 == uri2
-;;
-
-let string_of_uri uri = uri.(Array.length uri - 2);;
-let name_of_uri uri = uri.(Array.length uri - 1);;
-let buri_of_uri uri = uri.(Array.length uri - 3);;
-let depth_of_uri uri = Array.length uri - 2;;
-
-(*CSC: ora e' diventato poco efficiente, migliorare *)
-let relative_depth curi uri cookingsno =
- let rec length_of_current_prefix l1 l2 =
- match (l1, l2) with
- (he1::tl1, he2::tl2) when he1 == he2 ->
- 1 + length_of_current_prefix tl1 tl2
- | (_,_) -> 0
- in
- depth_of_uri uri -
- length_of_current_prefix
- (Array.to_list (Array.sub curi 0 (Array.length curi - (2 + cookingsno))))
- (Array.to_list (Array.sub uri 0 (Array.length uri - 2)))
- (*CSC: vecchio codice da eliminare
- if eq curi uri then 0
- else
- depth_of_uri uri -
- length_of_current_prefix (Array.to_list curi) (Array.to_list uri)
- *)
-;;
-
-module OrderedStrings =
- struct
- type t = string
- let compare (s1 : t) (s2 : t) = compare s1 s2
- end
-;;
-
-module SetOfStrings = Map.Make(OrderedStrings);;
-
-(*CSC: commento obsoleto ed errato *)
-(* Invariant: the map is the identity function, *)
-(* i.e. (SetOfStrings.find str !set_of_uri) == str *)
-let set_of_uri = ref SetOfStrings.empty;;
-let set_of_prefixes = ref SetOfStrings.empty;;
-
-(* similar to uri_of_string, but used for prefixes of uris *)
-let normalize prefix =
- try
- SetOfStrings.find prefix !set_of_prefixes
- with
- Not_found ->
- set_of_prefixes := SetOfStrings.add prefix prefix !set_of_prefixes ;
- prefix
-;;
-
-exception IllFormedUri of string;;
-
-let mk_prefixes str =
- let rec aux curi =
- function
- [he] ->
- let prefix_uri = curi ^ "/" ^ he
- and name = List.hd (Str.split (Str.regexp "\.") he) in
- [ normalize prefix_uri ; name ]
- | he::tl ->
- let prefix_uri = curi ^ "/" ^ he in
- (normalize prefix_uri)::(aux prefix_uri tl)
- | _ -> raise (IllFormedUri str)
- in
- let tokens = (Str.split (Str.regexp "/") str) in
- (* ty = "cic:" *)
- let (ty, sp) = (List.hd tokens, List.tl tokens) in
- aux ty sp
-;;
-
-let uri_of_string str =
- try
- SetOfStrings.find str !set_of_uri
- with
- Not_found ->
- let uri = Array.of_list (mk_prefixes str) in
- set_of_uri := SetOfStrings.add str uri !set_of_uri ;
- uri
-;;
+++ /dev/null
-type uri = string;;
-
-let eq uri1 uri2 =
- uri1 == uri2
-;;
-
-let string_of_uri uri = uri;;
-
-let name_of_uri uri =
- let l = Str.split (Str.regexp "/") uri in
- let name_suf = List.nth l (List.length l - 1) in
- List.hd (Str.split (Str.regexp "\.") name_suf)
-;;
-
-let depth_of_uri uri =
- List.length (Str.split (Str.regexp "/") uri) - 2
-;;
-
-module OrderedStrings =
- struct
- type t = string
- let compare (s1 : t) (s2 : t) = compare s1 s2
- end
-;;
-
-module SetOfStrings = Map.Make(OrderedStrings);;
-
-(* Invariant: the map is the identity function, *)
-(* i.e. (SetOfStrings.find str !set_of_uri) == str *)
-let set_of_uri = ref SetOfStrings.empty;;
-
-let uri_of_string str =
- try
- SetOfStrings.find str !set_of_uri
- with
- Not_found ->
- set_of_uri := SetOfStrings.add str str !set_of_uri ;
- str
-;;
+++ /dev/null
-type uri
-
-val eq : uri -> uri -> bool
-
-val uri_of_string : string -> uri
-
-val string_of_uri : uri -> string (* complete uri *)
-val name_of_uri : uri -> string (* name only (without extension)*)
-val buri_of_uri : uri -> string (* base uri only *)
-val depth_of_uri : uri -> int (* length of the path *)
-
-(* relative_depth curi uri cookingsno *)
-(* is the number of times to cook uri to use it when the current uri is curi *)
-(* cooked cookingsno times *)
-val relative_depth : uri -> uri -> int -> int
+++ /dev/null
-#!/usr/bin/perl
-
-while(<STDIN>) {
- chomp;
- split / /;
- for (@_) {
- if (/.*\.(con|var|ind)\.xml/)
- { s/\./cic:/; }
- elsif (/.*\.theory\.xml/)
- { s/\./theory:/; }
- s/\.xml//;
- print;
- print "\n";
- }
-}
+++ /dev/null
-// Base header file. Must be first.
-#include <Include/PlatformDefinitions.hpp>
-
-#include <iostream>
-#include <fstream>
-
-#include <util/PlatformUtils.hpp>
-
-#include <PlatformSupport/DOMStringHelper.hpp>
-
-#include <DOMSupport/DOMSupportDefault.hpp>
-
-#include <XPath/XObjectFactoryDefault.hpp>
-#include <XPath/XPathSupportDefault.hpp>
-#include <XPath/XPathFactoryDefault.hpp>
-
-#include <XSLT/StylesheetConstructionContextDefault.hpp>
-#include <XSLT/StylesheetExecutionContextDefault.hpp>
-#include <XSLT/XSLTEngineImpl.hpp>
-#include <XSLT/XSLTInit.hpp>
-#include <XSLT/XSLTInputSource.hpp>
-#include <XSLT/XSLTProcessorEnvSupportDefault.hpp>
-#include <XSLT/XSLTResultTarget.hpp>
-
-#include <XercesParserLiaison/XercesDOMSupport.hpp>
-#include <XercesParserLiaison/XercesParserLiaison.hpp>
-
-int main(int argc, const char* [])
-{
-#if !defined(XALAN_NO_NAMESPACES)
- using std::cerr;
- using std::endl;
- using std::ofstream;
-#endif
-
- if (argc != 1) {
- cerr << "Usage: SimpleTransform"
- << endl
- << endl;
- } else {
- try {
- // Call the static initializer for Xerces...
- XMLPlatformUtils::Initialize();
-
- {
- // Initialize the Xalan XSLT subsystem...
- XSLTInit theInit;
-
- // Create the support objects that are necessary for
- // running the processor...
- XercesDOMSupport theDOMSupport;
- XercesParserLiaison theParserLiaison(theDOMSupport);
- XPathSupportDefault theXPathSupport(theDOMSupport);
- XSLTProcessorEnvSupportDefault theXSLTProcessorEnvSupport;
- XObjectFactoryDefault theXObjectFactory;
- XPathFactoryDefault theXPathFactory;
-
- // Create a processor...
- XSLTEngineImpl theProcessor(
- theParserLiaison,
- theXPathSupport,
- theXSLTProcessorEnvSupport,
- theDOMSupport,
- theXObjectFactory,
- theXPathFactory);
-
- // Connect the processor to the support object...
- theXSLTProcessorEnvSupport.setProcessor(&theProcessor);
-
- // Create a stylesheet construction context, and a stylesheet
- // execution context...
- StylesheetConstructionContextDefault theConstructionContext(
- theProcessor,
- theXSLTProcessorEnvSupport,
- theXPathFactory);
-
- StylesheetExecutionContextDefault theExecutionContext(
- theProcessor,
- theXSLTProcessorEnvSupport,
- theXPathSupport,
- theXObjectFactory);
-
- // Our input files...The assumption is that the executable will be
- // run from same directory as the input files.
- const XalanDOMString theXMLFileName("foo.xml");
- const XalanDOMString theXSLFileName("foo.xsl");
-
- // Our input sources...
- XSLTInputSource theInputSource(c_wstr(theXMLFileName));
- XSLTInputSource theStylesheetSource(c_wstr(theXSLFileName));
-
- // Our output target...
- const XalanDOMString theOutputFileName("foo.out");
- XSLTResultTarget theResultTarget(theOutputFileName);
-
- theProcessor.process(
- theInputSource,
- theStylesheetSource,
- theResultTarget,
- theConstructionContext,
- theExecutionContext);
-
- }
-
- // Call the static terminator for Xerces...
- XMLPlatformUtils::Terminate();
- }
- catch(...) {
- cerr << "Exception caught!!!"
- << endl
- << endl;
- }
- }
-
- return 0;
-}
-
-/**************************************************/
-/*
-
-public class xaland {
- public static void Transform(StylesheetRoot style, String xmlSourceURL, String OutputURL) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- XSLTInputSource xmlSource = new XSLTInputSource (xmlSourceURL);
- XSLTResultTarget xmlResult = new XSLTResultTarget (OutputURL);
- style.process(xmlSource, xmlResult);
- }
-
- public static void main(String argv[]) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- int port = Integer.parseInt(argv[0]);
- int port2 = Integer.parseInt(argv[1]);
- String xsl1 = argv[2];
- String xsl2 = argv[3];
- String theory_xsl1 = argv[4];
- String theory_xsl2 = argv[5];
-
- XSLTProcessor theory_processor =
- XSLTProcessorFactory.getProcessor(new org.apache.xalan.xpath.xdom.XercesLiaison());
- StylesheetRoot theory_style1 =
- theory_processor.processStylesheet(theory_xsl1);
- theory_processor.reset();
- StylesheetRoot theory_style2 =
- theory_processor.processStylesheet(theory_xsl2);
- theory_processor.setStylesheet(theory_style2);
-
- XSLTProcessor processor =
- XSLTProcessorFactory.getProcessor(new org.apache.xalan.xpath.xdom.XercesLiaison());
- StylesheetRoot style1 = processor.processStylesheet(xsl1);
- processor.reset();
- StylesheetRoot style2 = processor.processStylesheet(xsl2);
- processor.setStylesheet(style2);
-
- DatagramSocket socket = new DatagramSocket(port);
-
- System.out.println("Demon activated on input port " + port +
- " and output port " + port2);
- while(true) {
- System.out.print("Ready...");
-
- /* Warning: the packet must be a fresh one! * /
- DatagramPacket packet = new DatagramPacket(new byte[1024],1024);
- socket.receive(packet);
- byte data[] = packet.getData();
- int datalen = packet.getLength();
- String received = new String(data,0,datalen);
-
- int first = received.indexOf(' ');
- int last = received.lastIndexOf(' ');
- String mode = received.substring(0,first);
- String input = received.substring(first+1,last);
- String output = received.substring(last+1);
-
- System.out.println("request received! Parameters are");
- System.out.println("Mode: " + mode + " ");
- System.out.println("Input file: \"" + input + "\"");
- System.out.println("Output file: \"" + output + "\"\n");
-
- if ((new File(output)).exists()) {
- System.out.println("Using cached version\n");
- } else {
- FileOutputStream fout = new FileOutputStream(output);
- if (mode.equals("cic")) {
- processor.setDocumentHandler(style2.getSAXSerializer(fout));
- XSLTResultTarget content = new XSLTResultTarget(processor);
- style1.process(new XSLTInputSource(input), content);
- } else if (mode.equals("theory")) {
- theory_processor.setDocumentHandler(
- theory_style2.getSAXSerializer(fout));
- XSLTResultTarget content =
- new XSLTResultTarget(theory_processor);
- theory_style1.process(new XSLTInputSource(input), content);
- }
- }
-
- InetAddress address = InetAddress.getLocalHost();
- DatagramSocket socket2 = new DatagramSocket();
-
- byte buf[] = new byte[0];
- DatagramPacket packet2 = new DatagramPacket(buf,0,address,port2);
-
- socket2.send(packet2);
- }
- }
-}
-
-*/
+++ /dev/null
-import java.net.*;
-
-public class rompi {
- public static void main(String argv[]) throws java.io.IOException, java.net.MalformedURLException
- {
- /* Wait forever ;-) */
- DatagramSocket socket2 = new DatagramSocket(12346);
- DatagramPacket packet2 = new DatagramPacket(new byte[1],1);
- System.out.println("Ho preso il socket e non lo lascio piu', caro pu, caro pu");
- socket2.receive(packet2);
- }
-}
+++ /dev/null
-import java.net.*;
-
-public class sped {
- public static void main(String argv[]) throws java.io.IOException, java.net.MalformedURLException
- {
- String input = argv[0];
- String out1 = argv[1];
- String out2 = argv[2];
-
- String sent = input + " " + out1 + " " + out2;
-
- InetAddress address = InetAddress.getLocalHost();
- DatagramSocket socket = new DatagramSocket();
-
- int strlen = sent.length();
- byte buf[] = new byte[strlen];
- sent.getBytes(0,strlen,buf,0);
- DatagramPacket packet = new DatagramPacket(buf,strlen,address,12345);
-
- socket.send(packet);
-
-
- /* Wait for answer (or forever ;-) */
- DatagramSocket socket2 = new DatagramSocket(12346);
- DatagramPacket packet2 = new DatagramPacket(new byte[1],1);
- socket2.receive(packet2);
- }
-}
+++ /dev/null
-import org.apache.xalan.xslt.*;
-import java.net.*;
-import java.io.*;
-
-public class xaland {
- public static void Transform(StylesheetRoot style, String xmlSourceURL, String OutputURL) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- XSLTInputSource xmlSource = new XSLTInputSource (xmlSourceURL);
- XSLTResultTarget xmlResult = new XSLTResultTarget (OutputURL);
- style.process(xmlSource, xmlResult);
- }
-
- public static void main(String argv[]) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- int port = Integer.parseInt(argv[0]);
- int port2 = Integer.parseInt(argv[1]);
- String xsl1 = argv[2];
- String xsl2 = argv[3];
- String theory_xsl1 = argv[4];
- String theory_xsl2 = argv[5];
-
- XSLTProcessor theory_processor =
- XSLTProcessorFactory.getProcessor(new org.apache.xalan.xpath.xdom.XercesLiaison());
- StylesheetRoot theory_style1 =
- theory_processor.processStylesheet(theory_xsl1);
- theory_processor.reset();
- StylesheetRoot theory_style2 =
- theory_processor.processStylesheet(theory_xsl2);
- theory_processor.setStylesheet(theory_style2);
-
- XSLTProcessor processor =
- XSLTProcessorFactory.getProcessor(new org.apache.xalan.xpath.xdom.XercesLiaison());
- StylesheetRoot style1 = processor.processStylesheet(xsl1);
- processor.reset();
- StylesheetRoot style2 = processor.processStylesheet(xsl2);
- processor.setStylesheet(style2);
-
- DatagramSocket socket = new DatagramSocket(port);
-
- System.out.println("Demon activated on input port " + port +
- " and output port " + port2);
- while(true) {
- System.out.print("Ready...");
-
- /* Warning: the packet must be a fresh one! */
- DatagramPacket packet = new DatagramPacket(new byte[1024],1024);
- socket.receive(packet);
- byte data[] = packet.getData();
- int datalen = packet.getLength();
- String received = new String(data,0,datalen);
-
- int first = received.indexOf(' ');
- int last = received.lastIndexOf(' ');
- String mode = received.substring(0,first);
- String input = received.substring(first+1,last);
- String output = received.substring(last+1);
-
- System.out.println("request received! Parameters are");
- System.out.println("Mode: " + mode + " ");
- System.out.println("Input file: \"" + input + "\"");
- System.out.println("Output file: \"" + output + "\"\n");
-
- if ((new File(output)).exists()) {
- System.out.println("Using cached version\n");
- } else {
- FileOutputStream fout = new FileOutputStream(output);
- if (mode.equals("cic")) {
- processor.setDocumentHandler(style2.getSAXSerializer(fout));
- XSLTResultTarget content = new XSLTResultTarget(processor);
- style1.process(new XSLTInputSource(input), content);
- } else if (mode.equals("theory")) {
- theory_processor.setDocumentHandler(
- theory_style2.getSAXSerializer(fout));
- XSLTResultTarget content =
- new XSLTResultTarget(theory_processor);
- theory_style1.process(new XSLTInputSource(input), content);
- }
- }
-
- InetAddress address = InetAddress.getLocalHost();
- DatagramSocket socket2 = new DatagramSocket();
-
- byte buf[] = new byte[0];
- DatagramPacket packet2 = new DatagramPacket(buf,0,address,port2);
-
- socket2.send(packet2);
- }
- }
-}
+++ /dev/null
-import org.apache.xalan.xslt.*;
-import java.net.*;
-import java.io.*;
-
-public class xaland {
- public static void Transform(StylesheetRoot style, String xmlSourceURL, String OutputURL) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- XSLTInputSource xmlSource = new XSLTInputSource (xmlSourceURL);
- XSLTResultTarget xmlResult = new XSLTResultTarget (OutputURL);
- style.process(xmlSource, xmlResult);
- }
-
- public static void main(String argv[]) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- int port = Integer.parseInt(argv[0]);
- int port2 = Integer.parseInt(argv[1]);
- String xsl1 = argv[2];
- String xsl2 = argv[3];
- String theory_xsl1 = argv[4];
- String theory_xsl2 = argv[5];
-
- XSLTProcessor theory_processor = XSLTProcessorFactory.getProcessor();
- StylesheetRoot theory_style1 =
- theory_processor.processStylesheet(theory_xsl1);
- StylesheetRoot theory_style2 =
- theory_processor.processStylesheet(theory_xsl2);
- theory_processor.setStylesheet(theory_style2);
-
- XSLTProcessor processor = XSLTProcessorFactory.getProcessor();
- StylesheetRoot style1 = processor.processStylesheet(xsl1);
- StylesheetRoot style2 = processor.processStylesheet(xsl2);
- processor.setStylesheet(style2);
-
- DatagramSocket socket = new DatagramSocket(port);
-
- System.out.println("Demon activated on input port " + port +
- " and output port " + port2);
- while(true) {
- System.out.print("Ready...");
-
- /* Warning: the packet must be a fresh one! */
- DatagramPacket packet = new DatagramPacket(new byte[1024],1024);
- socket.receive(packet);
- byte data[] = packet.getData();
- int datalen = packet.getLength();
- String received = new String(data,0,datalen);
-
- int first = received.indexOf(' ');
- int last = received.lastIndexOf(' ');
- String mode = received.substring(0,first);
- String input = received.substring(first+1,last);
- String output = received.substring(last+1);
-
- System.out.println("request received! Parameters are");
- System.out.println("Mode: " + mode + " ");
- System.out.println("Input file: \"" + input + "\"");
- System.out.println("Output file: \"" + output + "\"\n");
-
- if ((new File(output)).exists()) {
- System.out.println("Using cached version\n");
- } else {
- FileOutputStream fout = new FileOutputStream(output);
- if (mode.equals("cic")) {
- processor.setDocumentHandler(style2.getSAXSerializer(fout));
- XSLTResultTarget content = new XSLTResultTarget(processor);
- style1.process(new XSLTInputSource(input), content);
- } else if (mode.equals("theory")) {
- theory_processor.setDocumentHandler(
- theory_style2.getSAXSerializer(fout));
- XSLTResultTarget content =
- new XSLTResultTarget(theory_processor);
- theory_style1.process(new XSLTInputSource(input), content);
- }
- }
-
- InetAddress address = InetAddress.getLocalHost();
- DatagramSocket socket2 = new DatagramSocket();
-
- byte buf[] = new byte[0];
- DatagramPacket packet2 = new DatagramPacket(buf,0,address,port2);
-
- socket2.send(packet2);
- }
- }
-}
+++ /dev/null
-import org.apache.xalan.xslt.*;
-import java.net.*;
-import java.io.*;
-
-public class xaland {
- public static void Transform(StylesheetRoot style, String xmlSourceURL, String OutputURL) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- XSLTInputSource xmlSource = new XSLTInputSource (xmlSourceURL);
- XSLTResultTarget xmlResult = new XSLTResultTarget (OutputURL);
- style.process(xmlSource, xmlResult);
- }
-
- public static void main(String argv[]) throws java.io.IOException, java.net.MalformedURLException, org.xml.sax.SAXException
- {
- int port = Integer.parseInt(argv[0]);
- int port2 = Integer.parseInt(argv[1]);
- String xsl1 = argv[2];
- String xsl2 = argv[3];
- String theory_xsl1 = argv[4];
- String theory_xsl2 = argv[5];
-
- XSLTProcessor theory_processor = XSLTProcessorFactory.getProcessor();
- StylesheetRoot theory_style1 =
- theory_processor.processStylesheet(theory_xsl1);
- theory_processor.reset();
- StylesheetRoot theory_style2 =
- theory_processor.processStylesheet(theory_xsl2);
- theory_processor.setStylesheet(theory_style2);
-
- XSLTProcessor processor = XSLTProcessorFactory.getProcessor();
- StylesheetRoot style1 = processor.processStylesheet(xsl1);
- processor.reset();
- StylesheetRoot style2 = processor.processStylesheet(xsl2);
- processor.setStylesheet(style2);
-
- DatagramSocket socket = new DatagramSocket(port);
-
- System.out.println("Demon activated on input port " + port +
- " and output port " + port2);
- while(true) {
- System.out.print("Ready...");
-
- /* Warning: the packet must be a fresh one! */
- DatagramPacket packet = new DatagramPacket(new byte[1024],1024);
- socket.receive(packet);
- byte data[] = packet.getData();
- int datalen = packet.getLength();
- String received = new String(data,0,datalen);
-
- int first = received.indexOf(' ');
- int last = received.lastIndexOf(' ');
- String mode = received.substring(0,first);
- String input = received.substring(first+1,last);
- String output = received.substring(last+1);
-
- System.out.println("request received! Parameters are");
- System.out.println("Mode: " + mode + " ");
- System.out.println("Input file: \"" + input + "\"");
- System.out.println("Output file: \"" + output + "\"\n");
-
- if ((new File(output)).exists()) {
- System.out.println("Using cached version\n");
- } else {
- FileOutputStream fout = new FileOutputStream(output);
- if (mode.equals("cic")) {
- processor.setDocumentHandler(style2.getSAXSerializer(fout));
- XSLTResultTarget content = new XSLTResultTarget(processor);
- style1.process(new XSLTInputSource(input), content);
- } else if (mode.equals("theory")) {
- theory_processor.setDocumentHandler(
- theory_style2.getSAXSerializer(fout));
- XSLTResultTarget content =
- new XSLTResultTarget(theory_processor);
- theory_style1.process(new XSLTInputSource(input), content);
- }
- }
-
- InetAddress address = InetAddress.getLocalHost();
- DatagramSocket socket2 = new DatagramSocket();
-
- byte buf[] = new byte[0];
- DatagramPacket packet2 = new DatagramPacket(buf,0,address,port2);
-
- socket2.send(packet2);
- }
- }
-}
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* A tactic to print Coq objects in XML *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 18/10/2000 *)
-(* *)
-(* This module defines a pretty-printer and the stream of commands to the pp *)
-(* *)
-(******************************************************************************)
-
-
-(* the type token for XML cdata, empty elements and not-empty elements *)
-(* Usage: *)
-(* Str cdata *)
-(* Empty (element_name, [attrname1, value1 ; ... ; attrnamen, valuen] *)
-(* NEmpty (element_name, [attrname1, value2 ; ... ; attrnamen, valuen], *)
-(* content *)
-type token = Str of string
- | Empty of string * (string * string) list
- | NEmpty of string * (string * string) list * token Stream.t
-;;
-
-(* currified versions of the constructors make the code more readable *)
-let xml_empty name attrs = [< 'Empty(name,attrs) >]
-let xml_nempty name attrs content = [< 'NEmpty(name,attrs,content) >]
-let xml_cdata str = [< 'Str str >]
-
-(* Usage: *)
-(* pp tokens None pretty prints the output on stdout *)
-(* pp tokens (Some filename) pretty prints the output on the file filename *)
-let pp strm fn =
- let channel = ref stdout in
- let rec pp_r m =
- parser
- [< 'Str a ; s >] ->
- print_spaces m ;
- fprint_string (a ^ "\n") ;
- pp_r m s
- | [< 'Empty(n,l) ; s >] ->
- print_spaces m ;
- fprint_string ("<" ^ n) ;
- List.iter (function (n,v) -> fprint_string (" " ^ n ^ "=\"" ^ v ^ "\"")) l;
- fprint_string "/>\n" ;
- pp_r m s
- | [< 'NEmpty(n,l,c) ; s >] ->
- print_spaces m ;
- fprint_string ("<" ^ n) ;
- List.iter (function (n,v) -> fprint_string (" " ^ n ^ "=\"" ^ v ^ "\"")) l;
- fprint_string ">\n" ;
- pp_r (m+1) c ;
- print_spaces m ;
- fprint_string ("</" ^ n ^ ">\n") ;
- pp_r m s
- | [< >] -> ()
- and print_spaces m =
- for i = 1 to m do fprint_string " " done
- and fprint_string str =
- output_string !channel str
- in
- match fn with
- Some filename ->
- channel := open_out filename ;
- pp_r 0 strm ;
- close_out !channel ;
- print_string ("\nWriting on file \"" ^ filename ^ "\" was succesfull\n");
- flush stdout
- | None ->
- pp_r 0 strm
-;;
+++ /dev/null
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* A tactic to print Coq objects in XML *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 18/10/2000 *)
-(* *)
-(* This module defines a pretty-printer and the stream of commands to the pp *)
-(* *)
-(******************************************************************************)
-
-(* Tokens for XML cdata, empty elements and not-empty elements *)
-(* Usage: *)
-(* Str cdata *)
-(* Empty (element_name, [attrname1, value1 ; ... ; attrnamen, valuen] *)
-(* NEmpty (element_name, [attrname1, value2 ; ... ; attrnamen, valuen], *)
-(* content *)
-type token =
- | Str of string
- | Empty of string * (string * string) list
- | NEmpty of string * (string * string) list * token Stream.t
-
-(* currified versions of the token constructors make the code more readable *)
-val xml_empty : string -> (string * string) list -> token Stream.t
-val xml_nempty :
- string -> (string * string) list -> token Stream.t -> token Stream.t
-val xml_cdata : string -> token Stream.t
-
-(* The pretty printer for streams of token *)
-(* Usage: *)
-(* pp tokens None pretty prints the output on stdout *)
-(* pp tokens (Some filename) pretty prints the output on the file filename *)
-val pp : token Stream.t -> string option -> unit
+++ /dev/null
-exception XsltProcessorCouldNotSend;;
-exception XsltProcessorCouldNotReceive;;
-
-let portserver = 12345;;
-let portclient = 12346;;
-let time_to_wait = 10;;
-
-let rec process uri usecache mode =
- let module U = Unix in
- let uri = UriManager.string_of_uri uri in
- let pid = string_of_int (U.getpid ())
- and filename' =
- let uri' = Str.replace_first (Str.regexp ".*:") "" uri in
- Str.global_replace (Str.regexp "/") "_"
- (Str.global_replace (Str.regexp "_") "__" uri')
- in let tmpfile = "/tmp/helm_" ^ filename' ^ "_" ^ pid in
- (* test if the cache can be used *)
- let tmp_file_exists = Sys.file_exists tmpfile in
- if usecache && tmp_file_exists then
- tmpfile
- else
- let url = Configuration.getter_url ^ uri in
- (* purge the cache if asked to *)
- if not usecache && tmp_file_exists then
- Sys.remove tmpfile ;
- let string_to_send = mode ^ " " ^ url ^ " " ^ tmpfile in
- (* next function is for looping in case the server is not responding *)
- let rec contact_server () =
- let socketclient = U.socket U.PF_INET U.SOCK_DGRAM 0
- and socketserver = U.socket U.PF_INET U.SOCK_DGRAM 0 in
- let bounded = ref false in
- while not !bounded do
- try
- U.bind socketclient (U.ADDR_INET(U.inet_addr_any,portclient)) ;
- bounded := true
- with _ ->
- print_endline "Port unavailable. Retrying..." ; flush stdout ;
- U.sleep 5 (* wait hoping the inetaddr is released *)
- done ;
- let n =
- U.sendto socketserver string_to_send 0 (String.length string_to_send)
- [] (U.ADDR_INET(U.inet_addr_any,portserver))
- in
- if n = -1 then raise XsltProcessorCouldNotSend ;
- U.close socketserver ;
- let process_signal _ = U.close socketclient in
- Sys.set_signal Sys.sigalrm (Sys.Signal_handle process_signal) ;
- (* if the server does not respond, repeat the query *)
- ignore (U.alarm time_to_wait) ;
- try
- if U.recv socketclient "" 0 0 [] = -1 then
- raise XsltProcessorCouldNotReceive ;
- ignore (U.alarm 0) ; (* stop the bomb *)
- Sys.set_signal Sys.sigalrm Sys.Signal_default ;
- U.close socketclient ;
- tmpfile
- with
- U.Unix_error(_,"recv",_) ->
- print_endline "Xaland server not responding. Retrying..." ;
- flush stdout;
- contact_server ()
- in
- contact_server ()
-;;
projects / helm.git / commitdiff