-<?xml version="1.0"?>
-
-<!-- Copyright (C) 2000, HELM Team -->
-<!-- -->
-<!-- This file is part of HELM, an Hypertextual, Electronic -->
-<!-- Library of Mathematics, developed at the Computer Science -->
-<!-- Department, University of Bologna, Italy. -->
-<!-- -->
-<!-- HELM is free software; you can redistribute it and/or -->
-<!-- modify it under the terms of the GNU General Public License -->
-<!-- as published by the Free Software Foundation; either version 2 -->
-<!-- of the License, or (at your option) any later version. -->
-<!-- -->
-<!-- HELM is distributed in the hope that it will be useful, -->
-<!-- but WITHOUT ANY WARRANTY; without even the implied warranty of -->
-<!-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -->
-<!-- GNU General Public License for more details. -->
-<!-- -->
-<!-- You should have received a copy of the GNU General Public License -->
-<!-- along with HELM; if not, write to the Free Software -->
-<!-- Foundation, Inc., 59 Temple Place - Suite 330, Boston, -->
-<!-- MA 02111-1307, USA. -->
-<!-- -->
-<!-- For details, see the HELM World-Wide-Web page, -->
-<!-- http://cs.unibo.it/helm/. -->
-
-<!--******************************************************************-->
-<!-- Basic Logic -->
-<!-- (completely) Revisited: february 2001, Andrea Asperti -->
-<!-- HELM Group: Asperti, Padovani, Sacerdoti, Schena -->
-<!--******************************************************************-->
-
-<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
- xmlns:m="http://www.w3.org/1998/Math/MathML"
- xmlns:helm="http://www.cs.unibo.it/helm">
-
-<!-- ************************* LOGIC *********************************-->
-
-<!-- Proof objects -->
-
-<!-- <xsl:key name="typeid" use="@of" match="TYPE"/> -->
-<xsl:key name="typeid" use="@of" match="TYPE"/>
-
-<!-- ALL this elements does not have inner type -->
-<xsl:template match="PROD|SORT|MUTIND" mode="noannot">
- <xsl:apply-templates select="." mode="pure"/>
-</xsl:template>
-
-<!-- Atomic elements that have an inner type iff the expected type -->
-<!-- is different from the synthesized type. -->
-<xsl:template match="REL|VAR|META|CONST|MUTCONSTRUCT" mode="noannot">
- <xsl:variable name="id" select="@id"/>
- <xsl:variable name="innertype_available">
- <xsl:for-each select="$InnerTypes">
- <xsl:if test="key('typeid',$id)/*">
- <xsl:text>yes</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:choose>
- <xsl:when test="$naturalLanguage='yes' and @sort='Prop' and $innertype_available='yes'">
- <m:apply helm:xref="{@id}">
- <m:csymbol>proof</m:csymbol>
- <xsl:apply-templates mode="proof_transform" select="."/>
- <!-- <xsl:apply-templates mode="try_inductive" select="."/> -->
- <xsl:for-each select="$InnerTypes">
- <xsl:apply-templates mode="pure" select="key('typeid',$id)/*"/>
- </xsl:for-each>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates select="." mode="pure"/>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<!-- ALL ELEMENTS WITH A TYPE ARE TRANSLATED AS A PROOF-ELEMENT -->
-
-<!-- LAMBDA has inner type only if it is not nested inside another lambda -->
-<xsl:template match="LAMBDA" mode="noannot">
- <xsl:variable name="id" select="@id"/>
- <xsl:variable name="innertype_available">
- <xsl:for-each select="$InnerTypes">
- <xsl:if test="key('typeid',$id)/*">
- <xsl:text>yes</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:choose>
- <xsl:when test="$naturalLanguage='yes' and @sort='Prop' and $innertype_available='yes'">
- <m:apply helm:xref="{@id}">
- <m:csymbol>proof</m:csymbol>
- <xsl:apply-templates mode="proof_transform" select="."/>
- <xsl:for-each select="$InnerTypes">
- <xsl:apply-templates mode="pure" select="key('typeid',$id)/*"/>
- </xsl:for-each>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates select="." mode="pure"/>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<!-- ALL these elements have inner type -->
-<xsl:template match="LETIN|CAST|APPLY|MUTCASE|FIX|COFIX" mode="noannot">
- <xsl:variable name="id" select="@id"/>
- <xsl:choose>
- <xsl:when test="$naturalLanguage='yes' and @sort='Prop'">
- <m:apply helm:xref="{@id}">
- <m:csymbol>proof</m:csymbol>
- <xsl:apply-templates mode="proof_transform" select="."/>
- <!-- <xsl:apply-templates mode="try_inductive" select="."/> -->
- <xsl:for-each select="$InnerTypes">
- <xsl:apply-templates mode="pure" select="key('typeid',$id)/*"/>
- </xsl:for-each>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:choose>
- <xsl:when test="name()='APPLY'">
- <!-- This is the case of an applicative expression wich is not
- a proof but could contains proofs...
- MODE LETIN OR MODE PURE ??? Big question -->
- <xsl:apply-templates select="." mode="pure"/>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates select="." mode="pure"/>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<!-- si presuppone che il tipo induttivo non sia mutuamente
- induttivo. Bisognerebbe andare a vedere l'ultimo parametro
- del presunto "principio di induzione", tirare fuori il tipo induttivo
- e vedere se il suo nome coincide con il prefisso di _ind.
- Ad esempio nat_double_ind e' definito dall'utente. L'ultimo
- parametro di nat_double_ind e' di tipo nat, e nat e' diverso
- da nat_double. Per ora, verifico solo l'esistenza di nat_double,
- ma questo, benche' non porti ad errore, non copre tutti i
- casi per quelli mutuamente induttivi -->
-
-<xsl:template mode="try_inductive" match="APPLY">
- <xsl:variable name="id" select="@id"/>
- <xsl:choose>
- <xsl:when test="CONST[1]">
- <xsl:variable name="uri" select="CONST[1]/@uri"/>
- <xsl:choose>
- <xsl:when test="contains($uri,'_ind.con')">
- <xsl:variable name="ind_uri"
- select="concat(substring-before($uri,'_ind.con'),'.ind')"/>
- <xsl:variable name="InductiveTypeUrl"><xsl:call-template name="URLofURI4getter"><xsl:with-param name="uri" select="$ind_uri"/></xsl:call-template></xsl:variable>
- <xsl:variable name="inductive_def"
- select="document($InductiveTypeUrl)/InductiveDefinition"/>
- <!-- check if the corresponding inductive definition actually
- exists -->
- <xsl:choose>
- <xsl:when test="$inductive_def">
- <xsl:variable name="ind_name">
- <xsl:call-template name="get_name">
- <xsl:with-param name="uri" select="$uri"/>
- </xsl:call-template>
- </xsl:variable>
- <xsl:variable name="no_params">
- <xsl:call-template name="get_no_params">
- <xsl:with-param name="first_uri" select="$CICURI"/>
- <xsl:with-param name="second_uri" select="$uri"/>
- </xsl:call-template>
- </xsl:variable>
- <xsl:apply-templates mode="inductive" select=".">
- <xsl:with-param name="inductive_def_uri"
- select="$ind_uri"/>
- <xsl:with-param name="inductive_def"
- select="$inductive_def"/>
- <xsl:with-param name="section_params" select="$no_params"/>
- <xsl:with-param name="inductive_def_index" select="1"/>
- <xsl:with-param name="inductive_def_name" select="$ind_name"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates mode="letin" select="."/>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates mode="letin" select="."/>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates mode="letin" select="."/>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<xsl:template mode="eq_transitive" match="*">
- <!-- <m:ci>eccomi-1: <xsl:value-of select="name()"/></m:ci> -->
- <xsl:choose>
- <xsl:when test="name()='APPLY'">
- <!-- <m:ci>eccomi-2: <xsl:value-of select="CONST[1]/@uri"/></m:ci> -->
- <xsl:variable name="id" select="@id"/>
- <xsl:choose>
- <!-- ricordarsi di trattare il parametro -->
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/CSetoids/CSetoid_basics/eq_transitive_unfolded.con'] and count(child::*) = 7">
- <!-- <m:ci>eccomi-3</m:ci> -->
- <xsl:apply-templates mode="eq_transitive" select="*[6]"/>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="eq_transitive" select="*[7]"/>
- </xsl:when>
- <xsl:otherwise>
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="."/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <xsl:otherwise>
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="."/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<xsl:template mode="diseq" match="*">
- <xsl:param name="rel" select="'eq'"/>
- <xsl:choose>
- <xsl:when test="name()='APPLY'">
- <xsl:variable name="id" select="@id"/>
- <xsl:choose>
- <!-- ricordarsi di trattare il parametro -->
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_transitive.con'] and count(child::*) = 7">
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_wdl.con'] and count(child::*) = 7">
- <m:eq/>
- <!-- <m:ci><xsl:value-of select="'eq'"/></m:ci> -->
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_less_trans.con'] and count(child::*) = 7">
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/less_leEq_trans.con'] and count(child::*) = 7">
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_wdr.con'] and count(child::*) = 7">
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'eq'"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/COrdField_axioms/less_transitive_unfolded.con'] and count(child::*) = 7">
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/COrdField_axioms/less_wdr.con'] and count(child::*) = 7">
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'eq'"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/COrdField_axioms/less_wdl.con'] and count(child::*) = 7">
- <m:eq/>
- <!-- <m:ci><xsl:value-of select="'eq'"/></m:ci> -->
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- </xsl:when>
- <!--
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/CSetoids/CSetoid_basics/eq_transitive_unfolded.con'] and count(child::*) = 7">
- <xsl:apply-templates mode="diseq" select="*[6]"/>
- <m:eq/>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <m:eq/>
- <xsl:apply-templates mode="diseq" select="*[7]"/>
- </xsl:when>
- -->
- <xsl:otherwise>
- <xsl:element name="{concat('m:',$rel)}"/>
- <!-- <m:ci><xsl:value-of select="$rel"/></m:ci> -->
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="."/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <xsl:otherwise>
- <xsl:element name="{concat('m:',$rel)}"/>
- <!-- <m:ci><xsl:value-of select="$rel"/></m:ci> -->
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="."/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<xsl:template mode="proof_transform" match="*">
- <xsl:choose>
- <xsl:when test="name()='APPLY'">
- <xsl:variable name="id" select="@id"/>
- <xsl:choose>
- <!-- Algebra equality (eq_transitive_unfolded) -->
- <!-- It requires a special mode "eq_transitive"-->
- <!-- togliere il parametro -->
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/CSetoids/CSetoid_basics/eq_transitive_unfolded.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>eq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="eq_transitive" select="*[6]"/>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="eq_transitive" select="*[7]"/>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <!-- Algebra disequalities -->
- <!-- It requires a special mode "diseq"-->
- <!-- togliere il parametro -->
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_transitive.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_wdl.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- <m:eq/>
- <!-- <m:ci><xsl:value-of select="'eq'"/></m:ci> -->
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- </m:apply>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_less_trans.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/less_leEq_trans.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/Basic_Properties_of_leEq/leEq_wdr.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'leq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'eq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/COrdField_axioms/less_transitive_unfolded.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <!-- togliere il parametro -->
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/COrdField_axioms/less_wdr.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- <xsl:apply-templates mode="diseq" select="*[7]">
- <xsl:with-param name="rel" select="'eq'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <!-- togliere il parametro -->
- <xsl:when test="CONST[attribute::uri='cic:/Algebra/COrdFields/COrdField_axioms/less_wdl.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>diseq_chain</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- <m:eq/>
- <!-- <m:ci><xsl:value-of select="'eq'"/></m:ci> -->
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- <xsl:with-param name="show_statement" select="0"/>
- </xsl:call-template>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- <xsl:apply-templates mode="diseq" select="*[6]">
- <xsl:with-param name="rel" select="'lt'"/>
- </xsl:apply-templates>
- <xsl:apply-templates mode="noannot" select="*[4]"/>
- </m:apply>
- </xsl:when>
- <!-- EQUALITY -->
- <xsl:when test="CONST[
- attribute::uri='cic:/Coq/Init/Logic/Equality/eq_ind.con' or
- attribute::uri='cic:/Coq/Init/Logic/Logic_lemmas/eq_ind_r.con' or
- attribute::uri='cic:/Coq/Init/Logic_Type/eqT_ind.con' or
- attribute::uri='cic:/Coq/Init/Logic_Type/eqT_ind_r.con' or
- attribute::uri='cic:/Coq/Zarith/auxiliary/eqT_ind_r.con'] and count(child::*) = 7">
- <m:apply>
- <m:csymbol>rw_step</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- <xsl:apply-templates mode="pure" select="*[3]"/>
- <xsl:apply-templates mode="pure" select="*[6]"/>
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- </xsl:call-template>
- <!-- <xsl:apply-templates mode="proof_transform" select="*[7]"/> -->
- </m:apply>
- </xsl:when>
- <!-- EQUALITY with extra-parameters -->
- <xsl:when test="CONST[
- attribute::uri='cic:/Coq/Init/Logic/Equality/eq_ind.con' or
- attribute::uri='cic:/Coq/Init/Logic/Logic_lemmas/eq_ind_r.con' or
- attribute::uri='cic:/Coq/Init/Logic_Type/eqT_ind.con' or
- attribute::uri='cic:/Coq/Init/Logic_Type/eqT_ind_r.con' or
- attribute::uri='cic:/Coq/Zarith/auxiliary/eqT_ind_r.con'] and count(child::*) > 7">
- <xsl:variable name="no_extraproofs" select="count(*[position()>7 and @sort='Prop' and (name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX')])"/>
- <xsl:choose>
- <xsl:when test="$no_extraproofs=0">
- <m:apply>
- <m:csymbol>rewrite_and_apply</m:csymbol>
- <m:apply>
- <m:csymbol>rw_step</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- <xsl:apply-templates mode="pure" select="*[3]"/>
- <xsl:apply-templates mode="pure" select="*[6]"/>
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- </xsl:call-template>
- <!-- <xsl:apply-templates mode="pure" select="*[7]"/> -->
- </m:apply>
- <xsl:apply-templates mode="noannot" select="*[position()>7]"/>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:choose>
- <xsl:when test="*[5]/@sort='Prop'">
- <m:apply helm:xref="{@id}">
- <m:csymbol>letin</m:csymbol>
- <m:apply>
- <m:csymbol>let</m:csymbol>
- <m:ci>
- <xsl:call-template name="insert_subscript">
- <xsl:with-param name="node_value" select="'h1'"/>
- </xsl:call-template>
- </m:ci>
- <xsl:apply-templates mode="noannot" select="*[5]"/>
- </m:apply>
- <xsl:call-template name="gen_let">
- <xsl:with-param name="init_pos" select="1"/>
- <xsl:with-param name="from" select="7"/>
- </xsl:call-template>
- <m:apply>
- <m:csymbol>rewrite_and_apply</m:csymbol>
- <m:apply>
- <m:csymbol>rw_step</m:csymbol>
- <m:ci>
- <xsl:call-template name="insert_subscript">
- <xsl:with-param name="node_value" select="'h1'"/>
- </xsl:call-template>
- </m:ci>
- <xsl:apply-templates mode="pure" select="*[3]"/>
- <xsl:apply-templates mode="pure" select="*[6]"/>
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- </xsl:call-template>
- <!-- <xsl:apply-templates mode="pure" select="*[7]"/> -->
- </m:apply>
- <xsl:apply-templates mode="flat" select="*[8]">
- <xsl:with-param name="n">
- <xsl:value-of select="2"/>
- </xsl:with-param>
- </xsl:apply-templates>
- </m:apply>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <m:apply helm:xref="{@id}">
- <m:csymbol>letin</m:csymbol>
- <xsl:call-template name="gen_let">
- <xsl:with-param name="init_pos" select="0"/>
- <xsl:with-param name="form" select="7"/>
- </xsl:call-template>
- <m:apply>
- <m:csymbol>rewrite_and_apply</m:csymbol>
- <m:apply>
- <m:csymbol>rw_step</m:csymbol>
- <xsl:apply-templates mode="pure" select="*[5]"/>
- <xsl:apply-templates mode="pure" select="*[3]"/>
- <xsl:apply-templates mode="pure" select="*[6]"/>
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="*[7]"/>
- </xsl:call-template>
- <!-- <xsl:apply-templates mode="pure" select="*[7]"/> -->
- </m:apply>
- <xsl:apply-templates mode="flat" select="*[8]">
- <xsl:with-param name="n">
- <xsl:value-of select="1"/>
- </xsl:with-param>
- </xsl:apply-templates>
- </m:apply>
- </m:apply>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <!-- False_ind -->
- <xsl:when test="CONST[
- attribute::uri='cic:/Coq/Init/Logic/False_ind.con'] and
- count(child::*) = 3">
- <m:apply helm:xref="{@id}">
- <m:csymbol>false_ind</m:csymbol>
- <m:ci>cic:/Coq/Init/Logic/False_ind.con</m:ci>
- <xsl:apply-templates mode="noannot" select="*[3]"/>
- </m:apply>
- </xsl:when>
- <!-- gestire meglio il caso di and_ind quando la prova
- non e' della forma \x.\y.M -->
- <xsl:when test="CONST[
- attribute::uri='cic:/Coq/Init/Logic/Conjunction/and_ind.con']
- and count(child::*) = 6
- and name(*[5])='LAMBDA'
- and name(*[5]/target/*[1])='LAMBDA'">
- <m:apply helm:xref="{@id}">
- <m:csymbol>and_ind</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[6]"/>
- <m:ci><xsl:call-template name="insert_subscript"><xsl:with-param name="node_value"><xsl:value-of select="*[5]/target/@binder"/></xsl:with-param></xsl:call-template></m:ci>
- <xsl:apply-templates mode="pure" select="*[5]/source/*"/>
- <m:ci><xsl:call-template name="insert_subscript"><xsl:with-param name="node_value"><xsl:value-of select="*[5]/target/LAMBDA/target/@binder"/></xsl:with-param></xsl:call-template></m:ci>
- <xsl:apply-templates mode="pure" select="*[5]/target/LAMBDA/source/*"/>
- <xsl:apply-templates mode="proof_transform" select="*[5]/target/LAMBDA/target/*"/>
- </m:apply>
- </xsl:when>
- <xsl:when test="CONST[
- attribute::uri='cic:/Coq/Init/Logic/Disjunction/or_ind.con']
- and count(child::*) = 7">
- <xsl:choose>
- <xsl:when test="name(*[5])='LAMBDA'
- and name(*[6])='LAMBDA'">
- <xsl:variable name="definition_url"
- select="'cic:/Coq/Init/Logic/Disjunction/or.ind'"/>
- <m:apply helm:xref="{@id}">
- <m:csymbol>full_or_ind</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[7]"/>
- <xsl:for-each select="$InnerTypes">
- <xsl:apply-templates mode="pure" select="key('typeid',$id)/*[1]"/>
- </xsl:for-each>
- <m:apply>
- <m:csymbol>left_case</m:csymbol>
- <m:bvar>
- <m:ci>
- <xsl:value-of select="*[5]/target/@binder"/>
- </m:ci>
- <m:type>
- <xsl:apply-templates mode="pure" select="*[5]/source/*[1]"/>
- </m:type>
- </m:bvar>
- <xsl:apply-templates mode="noannot" select="*[5]/target/*[1]"/>
- </m:apply>
- <m:apply>
- <m:csymbol>right_case</m:csymbol>
- <m:bvar>
- <m:ci>
- <xsl:apply-templates mode="pure" select="*[6]/target/@binder"/>
- </m:ci>
- <m:type>
- <xsl:apply-templates mode="pure" select="*[6]/source/*[1]"/>
- </m:type>
- </m:bvar>
- <xsl:apply-templates mode="noannot" select="*[6]/target/*[1]"/>
- </m:apply>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <m:apply helm:xref="{@id}">
- <m:csymbol>or_ind</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[7]"/>
- <xsl:for-each select="$InnerTypes">
- <xsl:apply-templates mode="pure" select="key('typeid',$id)/*[1]"/>
- </xsl:for-each>
- <xsl:apply-templates mode="pure" select="*[5]"/>
- <xsl:apply-templates mode="pure" select="*[6]"/>
- </m:apply>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <!-- ex_ind, exT_ind -->
- <xsl:when test="(CONST[attribute::uri='cic:/Coq/Init/Logic_Type/exT_ind.con'] or
- CONST[attribute::uri='cic:/Coq/Init/Logic/First_order_quantifiers/ex_ind.con'])
- and count(child::*) = 6
- and name(*[5])='LAMBDA'
- and name(*[5]/target/*[1])='LAMBDA'">
- <m:apply helm:xref="{@id}">
- <m:csymbol>ex_ind</m:csymbol>
- <xsl:apply-templates mode="noannot" select="*[6]"/>
- <m:ci><xsl:call-template name="insert_subscript"><xsl:with-param name="node_value"><xsl:value-of select="*[5]/target/@binder"/></xsl:with-param></xsl:call-template></m:ci>
- <xsl:apply-templates mode="pure" select="*[5]/source/*"/>
- <m:ci><xsl:call-template name="insert_subscript"><xsl:with-param name="node_value"><xsl:value-of select="*[5]/target/LAMBDA/target/@binder"/></xsl:with-param></xsl:call-template></m:ci>
- <xsl:apply-templates mode="pure" select="*[5]/target/LAMBDA/source/*"/>
- <xsl:apply-templates mode="proof_transform" select="*[5]/target/LAMBDA/target/*"/>
- </m:apply>
- </xsl:when>
- <xsl:when test="name(*[1])='CONST'">
- <xsl:apply-templates mode="try_inductive" select="."/>
- </xsl:when>
- <!-- patch temporanea per la gestione di redex -->
- <xsl:when test="name(*[1])='LAMBDA' and count(child::*)=2
- and *[2]/@sort='Prop'">
- <m:apply helm:xref="{@id}">
- <m:csymbol>letin</m:csymbol>
- <m:apply>
- <m:csymbol>let</m:csymbol>
- <m:ci>
- <xsl:call-template name="insert_subscript">
- <xsl:with-param name="node_value">
- <xsl:value-of select="*[1]/target/@binder"/>
- </xsl:with-param>
- </xsl:call-template>
- </m:ci>
- <xsl:apply-templates mode="noannot" select="*[2]"/>
- </m:apply>
- <xsl:apply-templates mode="proof_transform" select="*[1]/target/*[1]"/>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates select="." mode="letin"/>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <xsl:when test="name()='LAMBDA'">
- <xsl:choose>
- <xsl:when test="(name(target/*[1])='APPLY' and
- name(target/*[1]/*[1])='CONST' and
- (target/*[1]/*[1]/@uri='cic:/Coq/Init/Logic_Type/eqT_ind.con' or
- target/*[1]/*[1]/@uri='cic:/Coq/Init/Logic_Type/eqT_ind_r.con' or
- target/*[1]/*[1]/@uri='cic:/Coq/Zarith/auxiliary/eqT_ind_r.con')
- and count(target/*[1]/*) = 8
- and name(target/*[1]/*[8])='REL'
- and target/@binder = target/*[1]/*[8]/@binder )">
- <m:apply>
- <m:csymbol>rw_step</m:csymbol>
- <xsl:apply-templates mode="noannot" select="target/*[1]/*[5]"/>
- <xsl:apply-templates mode="pure" select="target/*[1]/*[3]"/>
- <xsl:apply-templates mode="pure" select="target/*[1]/*[6]"/>
- <xsl:call-template name="generate_side_proof">
- <xsl:with-param name="proof" select="target/*[1]/*[7]"/>
- </xsl:call-template>
- <!-- <xsl:apply-templates mode="proof_transform" select="target/*[1]/*[7]"/> -->
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates mode="pure" select="."/>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates select="." mode="pure"/>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<xsl:template name="is_simple">
- <xsl:param name="proof" select="/.."/>
- <xsl:value-of select="(count($proof/*)=0) or ((name($proof)='APPLY') and (count($proof/*[@sort='Prop' and (name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX')]) = 0))"/>
-</xsl:template>
-
-<xsl:template name="generate_side_proof">
- <xsl:param name="proof" select="/.."/>
- <xsl:param name="show_statement" select="1"/>
-<!--
- <xsl:variable name="is_simple">
- <xsl:call-template name="is_simple">
- <xsl:with-param name="proof" select="$proof"/>
- </xsl:call-template>
- </xsl:variable> -->
-<xsl:variable name="is_simple" select="(count($proof/*)=0) or ((name($proof)='APPLY') and (count($proof/*[@sort='Prop' and (name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX')]) = 0))"/>
- <xsl:choose>
- <xsl:when test="$is_simple">
- <xsl:choose>
- <xsl:when test="name($proof)='APPLY'">
- <xsl:apply-templates select="$proof" mode="letin"/>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates select="$proof" mode="pure"/>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:when>
- <xsl:otherwise>
- <xsl:variable name="id" select="@id"/>
- <m:apply helm:xref="{@id}">
- <xsl:choose>
- <xsl:when test="$show_statement = 1">
- <m:csymbol>proof</m:csymbol>
- </xsl:when>
- <xsl:otherwise>
- <m:csymbol>side_proof</m:csymbol>
- </xsl:otherwise>
- </xsl:choose>
- <xsl:apply-templates mode="proof_transform" select="$proof"/>
- <xsl:for-each select="$InnerTypes">
- <xsl:apply-templates mode="pure" select="key('typeid',$proof/@id)/*"/>
- </xsl:for-each>
- </m:apply>
- <!-- <xsl:apply-templates select="$proof" mode="noannot"/> -->
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<xsl:template match="APPLY" mode="letin">
- <xsl:variable name="no_subproofs">
- <xsl:variable name="stars">
- <xsl:for-each select="*[@sort='Prop']">
- <xsl:variable name="id" select="@id"/>
- <xsl:variable name="innertype_available">
- <xsl:for-each select="$InnerTypes">
- <xsl:if test="key('typeid',$id)/*">
- <xsl:text>yes</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:if test="name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX' or ((name(.)='REL' or name(.)='VAR' or name(.)='META' or name(.)='CONST' or name(.)='MUTCONSTRUCT') and $innertype_available='yes')">
- <!-- We generate one star for each subproof -->
- <xsl:text>*</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:value-of select="string-length($stars)"/>
- </xsl:variable>
- <!-- <m:cn><xsl:value-of select="$no_subproofs"/></m:cn> -->
- <xsl:choose>
- <xsl:when test="$naturalLanguage='yes' and ($no_subproofs = 1)">
- <m:apply helm:xref="{@id}">
- <m:csymbol>letin1</m:csymbol>
- <xsl:for-each select="*[@sort='Prop']">
- <xsl:variable name="id" select="@id"/>
- <xsl:variable name="innertype_available">
- <xsl:for-each select="$InnerTypes">
- <xsl:if test="key('typeid',$id)/*">
- <xsl:text>yes</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:if test="name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX' or ((name(.)='REL' or name(.)='VAR' or name(.)='META' or name(.)='CONST' or name(.)='MUTCONSTRUCT') and $innertype_available='yes')">
- <xsl:apply-templates mode="noannot" select="."/>
- </xsl:if>
- </xsl:for-each>
- <!-- now re-process the application -->
- <m:apply helm:xref="{@id}">
- <m:csymbol>app</m:csymbol>
- <!-- mode previous looks for siblings:
- call with the first child -->
- <xsl:apply-templates mode="previous" select="*[1]"/>
- </m:apply>
- </m:apply>
- </xsl:when>
- <xsl:when test="$naturalLanguage='yes' and ($no_subproofs > 1)">
- <m:apply helm:xref="{@id}">
- <m:csymbol>letin</m:csymbol>
- <!-- first process all subproofs (let-in) -->
- <xsl:call-template name="gen_let"/>
- <!-- now re-process the application -->
- <m:apply helm:xref="{@id}">
- <m:csymbol>app</m:csymbol>
- <!-- mode flat looks for siblings: call with the first child -->
- <xsl:apply-templates mode="flat" select="*[1]"/>
- </m:apply>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:choose>
- <xsl:when test="@sort='Prop'">
- <m:apply>
- <m:csymbol>app</m:csymbol>
- <xsl:apply-templates mode="erase" select="*[1]"/>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <xsl:apply-templates mode="pure" select="."/>
- </xsl:otherwise>
- </xsl:choose>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<xsl:template name="gen_let">
- <xsl:param name="init_pos" select="0"/>
- <xsl:param name="from" select="0"/>
- <xsl:for-each select="*[position()>$from and @sort='Prop']">
- <xsl:variable name="id" select="@id"/>
- <xsl:variable name="innertype_available">
- <xsl:for-each select="$InnerTypes">
- <xsl:if test="key('typeid',$id)/*">
- <xsl:text>yes</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:if test="name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX' or ((name(.)='REL' or name(.)='VAR' or name(.)='META' or name(.)='CONST' or name(.)='MUTCONSTRUCT') and $innertype_available='yes')">
- <m:apply>
- <m:csymbol>let</m:csymbol>
- <m:ci><xsl:call-template name="insert_subscript"><xsl:with-param name="node_value"><xsl:value-of select="concat('h',position()+$init_pos)"/></xsl:with-param></xsl:call-template></m:ci>
- <xsl:apply-templates mode="noannot" select="."/>
- </m:apply>
- </xsl:if>
- </xsl:for-each>
-</xsl:template>
-
-<xsl:template match="*" mode="erase">
- <xsl:choose>
- <xsl:when test="@sort='Prop' or $naturalLanguage='no'">
- <xsl:apply-templates mode="pure" select="."/>
- </xsl:when>
- <xsl:otherwise>
- <m:ci>.</m:ci>
- </xsl:otherwise>
- </xsl:choose>
- <xsl:apply-templates mode="erase" select="following-sibling::*[1]"/>
-</xsl:template>
-
-<xsl:template match="*" mode="previous">
- <xsl:variable name="innertype_available">
- <xsl:variable name="id" select="@id"/>
- <xsl:for-each select="$InnerTypes">
- <xsl:if test="key('typeid',$id)/*">
- <xsl:text>yes</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:choose>
- <xsl:when test="@sort='Prop' and (name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX' or ((name(.)='REL' or name(.)='VAR' or name(.)='META' or name(.)='CONST' or name(.)='MUTCONSTRUCT') and $innertype_available='yes'))">
- <m:ci>previous</m:ci>
- </xsl:when>
- <xsl:otherwise>
- <!-- forse bisognerebbe trattare solo l'elemento di testa -->
- <xsl:choose>
- <xsl:when test="@sort='Prop' or $naturalLanguage='no'">
- <xsl:apply-templates mode="pure" select="."/>
- </xsl:when>
- <xsl:otherwise>
- <m:ci>.</m:ci>
- </xsl:otherwise>
- </xsl:choose>
- <!-- <xsl:apply-templates select="." mode="pure"/> -->
- </xsl:otherwise>
- </xsl:choose>
- <xsl:apply-templates mode="previous" select="following-sibling::*[1]"/>
-</xsl:template>
-
-<xsl:template match="*" mode="flat">
- <xsl:param name="n" select="1"/>
- <xsl:variable name="id" select="@id"/>
- <xsl:variable name="innertype_available">
- <xsl:for-each select="$InnerTypes">
- <xsl:if test="key('typeid',$id)/*">
- <xsl:text>yes</xsl:text>
- </xsl:if>
- </xsl:for-each>
- </xsl:variable>
- <xsl:choose>
- <xsl:when test="$naturalLanguage='yes' and @sort='Prop' and (name(.)='LAMBDA' or name(.)='LETIN' or name(.)='APPLY' or name(.)='MUTCASE' or name(.)='FIX' or name(.)='COFIX' or ((name(.)='REL' or name(.)='VAR' or name(.)='META' or name(.)='CONST' or name(.)='MUTCONSTRUCT') and $innertype_available='yes'))">
- <m:ci>
- <xsl:call-template name="insert_subscript"><xsl:with-param name="node_value"><xsl:value-of select="concat('h',$n)"/></xsl:with-param></xsl:call-template>
- </m:ci>
- <xsl:apply-templates mode="flat" select="following-sibling::*[1]">
- <xsl:with-param name="n" select="$n+1"/>
- </xsl:apply-templates>
- </xsl:when>
- <xsl:otherwise>
- <xsl:choose>
- <xsl:when test="name()='REL' or @sort='Prop' or $naturalLanguage='no'">
- <xsl:apply-templates mode="pure" select="."/>
- </xsl:when>
- <xsl:otherwise>
- <m:ci>.</m:ci>
- </xsl:otherwise>
- </xsl:choose>
- <!-- <xsl:apply-templates mode="pure" select="."/> -->
- <xsl:apply-templates mode="flat" select="following-sibling::*[1]">
- <xsl:with-param name="n" select="$n"/>
- </xsl:apply-templates>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<!-- Auxiliary functions -->
-<!-- OMDOC: now we have name_of_uri generalized on the extension that -->
-<!-- can replace the next template -->
-<xsl:template name="get_name">
- <xsl:param name="uri" select="''"/>
- <xsl:variable name="sub_after" select="substring-after($uri,'/')"/>
- <xsl:choose>
- <xsl:when test="contains($sub_after,'/')">
- <xsl:call-template name="get_name">
- <xsl:with-param name="uri" select="$sub_after"/>
- </xsl:call-template>
- </xsl:when>
- <xsl:otherwise>
- <xsl:value-of select="substring-before($sub_after,'_ind.con')"/>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template>
-
-<!-- <xsl:template match="APPLY[CONST[
- attribute::uri='cic:/Coq/Init/Logic/Conjunction/and_ind.con']]" mode="appflat">
- <xsl:choose>
- <xsl:when test="count(child::*) > 4">
- <m:apply helm:xref="{@id}">
- <m:csymbol>app</m:csymbol>
- <xsl:apply-templates mode="pure" select="*[1]"/>
- <m:ci>*</m:ci>
- <m:ci>*</m:ci>
- <m:ci>*</m:ci>
- <xsl:apply-templates mode="flat" select="*[5]"/>
- </m:apply>
- </xsl:when>
- <xsl:otherwise>
- <m:apply helm:xref="{@id}">
- <m:csymbol>app</m:csymbol>
- <xsl:apply-templates mode="flat" select="*[1]"/>
- </m:apply>
- </xsl:otherwise>
- </xsl:choose>
-</xsl:template> -->
-
-
-</xsl:stylesheet>