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################################################################################
##
## simpcomp / tools.gd
##
## Miscellaneous functions
##
## $Id$
##
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## <#GAPDoc Label="tools">
##
## The behaviour of <Package>simpcomp</Package> can be changed by setting cetain global options. This can be achieved by the functions described in the following.
##
## <Section>
## <Heading><Package>simpcomp</Package> logging</Heading>
##
## The verbosity of the output of information to the screen during calls to functions of the package <Package>simpcomp</Package> can be controlled by setting the info level parameter via the function <Ref Func="SCInfoLevel" />.
##
## <ManSection>
## <Func Name="SCInfoLevel" Arg="level"/>
## <Returns><K>true</K></Returns>
## <Description>
## Sets the logging verbosity of <Package>simpcomp</Package>. A level of <M>0</M> suppresses all output, a level of <M>1</M> lets <Package>simpcomp</Package> output normal running information, whereas levels of <M>2</M> and higher display verbose running information. Examples of functions using more verbose logging are bistellar flip-related functions.
## <Example><![CDATA[
## gap> SCInfoLevel(3);
## true
## gap> c:=SCBdCrossPolytope(3);;
## gap> SCReduceComplex(c);
## #I round 0, move: [ [ 4, 5 ], [ 1, 2 ] ]
## F: [ 6, 12, 8 ]
## #I round 1, move: [ [ 5 ], [ 1, 2, 3 ] ]
## F: [ 5, 9, 6 ]
## #I round 1
## Reduced complex, F: [ 5, 9, 6 ]
## #I round 2, move: [ [ 3 ], [ 1, 2, 6 ] ]
## F: [ 4, 6, 4 ]
## #I round 2
## Reduced complex, F: [ 4, 6, 4 ]
## #I SCReduceComplexEx: computed locally minimal complex after 3 rounds.
## [ true, <SimplicialComplex: unnamed complex 3 | dim = 2 | n = 4>, 3 ]
## ]]></Example>
## </Description>
## </ManSection>
## </Section>
##
##
## <Section>
## <Heading>Email notification system</Heading>
##
## <Package>simpcomp</Package> comes with an email notification system that can be used for being notified of the progress of lengthy computations (such as reducing a complex via bistellar flips). See below for a description of the mail notification related functions. Note that this might not work on non-Unix systems.<P/>
##
## See <Ref Func="SCReduceComplexEx"/> for an example computation using the email notification system.
##
## <#Include Label="SCMailClearPending"/>
## <#Include Label="SCMailIsEnabled"/>
## <#Include Label="SCMailIsPending"/>
## <#Include Label="SCMailSend"/>
## <#Include Label="SCMailSendPending"/>
## <#Include Label="SCMailSetAddress"/>
## <#Include Label="SCMailSetEnabled"/>
## <#Include Label="SCMailSetMinInterval"/>
## </Section>
##
## <Section>
## <Heading>Testing the functionality of <Package>simpcomp</Package></Heading>
##
## <Package>simpcomp</Package> makes use of the &GAP; internal testing mechanisms and provides the user with a function to test the functionality of the package.
##
## <#Include Label="SCRunTest"/>
##
## On a modern computer, the function <C>SCRunTest</C> should take about a minute to complete when the packages <Package>GRAPE</Package> <Cite Key="Soicher06GRAPE"/> and <Package>homology</Package> <Cite Key="Dumas04Homology"/> are available. If these packages are missing, the testing will take slightly longer.
##
## </Section>
##
##<#/GAPDoc>
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