/usr/share/gap/lib/methwhy.g is in gap-libs 4r7p9-1.
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##
#W methwhy.g GAP tools Alexander Hulpke
##
##
#Y Copyright (C) 1997, Lehrstuhl D für Mathematik, RWTH Aachen, Germany
#Y (C) 1998 School Math and Comp. Sci., University of St Andrews, Scotland
#Y Copyright (C) 2002 The GAP Group
##
## This file allows some fancy accesses to the method selection
##
#############################################################################
##
#F Print_Value(<val>)
##
## <ManSection>
## <Func Name="Print_Value" Arg='val'/>
##
## <Description>
## print a number factorized by SUM_FLAGS
## </Description>
## </ManSection>
##
BindGlobal("Print_Value_SFF",function(val)
if val>SUM_FLAGS then
Print(QuoInt(val,SUM_FLAGS),"*SUM_FLAGS");
val:=val mod SUM_FLAGS;
if val>0 then
Print("+",val);
fi;
else
Print(val);
fi;
end);
#############################################################################
##
#F ApplicableMethod( <opr>, <args>[, <printlevel>[, <nr>]] )
#F ApplicableMethodTypes( <opr>, <args>[, <printlevel>[, <nr>]] )
##
## <#GAPDoc Label="ApplicableMethod">
## <ManSection>
## <Func Name="ApplicableMethod" Arg='opr, args[, printlevel[, nr]]'/>
## <Func Name="ApplicableMethodTypes" Arg='opr, args[, printlevel[, nr]]'/>
##
## <Description>
## Called with two arguments, <Ref Func="ApplicableMethod"/> returns the
## method of highest rank that is applicable for the operation <A>opr</A>
## with the arguments in the list <A>args</A>.
## The default <A>printlevel</A> is <C>0</C>.
## If no method is applicable then <K>fail</K> is returned.
## <P/>
## If a positive integer is given as the fourth argument <A>nr</A> then
## <Ref Func="ApplicableMethod"/> returns the <A>nr</A>-th applicable method
## for the operation <A>opr</A> with the arguments in the list <A>args</A>,
## where the methods are ordered according to descending rank.
## If less than <A>nr</A> methods are applicable then <K>fail</K> is
## returned.
## <P/>
## If the fourth argument <A>nr</A> is the string <C>"all"</C> then
## <Ref Func="ApplicableMethod"/>
## returns a list of all applicable methods for <A>opr</A> with arguments
## <A>args</A>, ordered according to descending rank.
## <P/>
## Depending on the integer value <A>printlevel</A>, additional information is
## printed. Admissible values and their meaning are as follows.
## <P/>
## <List>
## <Mark>0</Mark>
## <Item>
## no information,
## </Item>
## <Mark>1</Mark>
## <Item>
## information about the applicable method,
## </Item>
## <Mark>2</Mark>
## <Item>
## also information about the not applicable methods of higher rank,
## </Item>
## <Mark>3</Mark>
## <Item>
## also for each not applicable method the first reason why it is not
## applicable,
## </Item>
## <Mark>4</Mark>
## <Item>
## also for each not applicable method all reasons why it is not
## applicable.
## </Item>
## <Mark>6</Mark>
## <Item>
## also the function body of the selected method(s)
## </Item>
## </List>
## <P/>
## When a method returned by <Ref Func="ApplicableMethod"/> is called then
## it returns either the desired result or the string
## <C>"TRY_NEXT_METHOD"</C>, which corresponds to a call to
## <Ref Func="TryNextMethod"/> in the method and means that
## the method selection would call the next applicable method.
## <P/>
## <E>Note:</E>
## The &GAP; kernel provides special treatment for the infix operations
## <C>\+</C>, <C>\-</C>, <C>\*</C>, <C>\/</C>, <C>\^</C>, <C>\mod</C> and
## <C>\in</C>.
## For some kernel objects (notably cyclotomic numbers,
## finite field elements and row vectors thereof) it calls kernel methods
## circumventing the method selection mechanism.
## Therefore for these operations <Ref Func="ApplicableMethod"/> may return
## a method which is not the kernel method actually used.
## <P/>
## The function <Ref Func="ApplicableMethodTypes"/> takes the <E>types</E>
## or <E>filters</E> of the arguments as argument (if only filters are given
## of course family predicates cannot be tested).
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("ApplicableMethodTypes",function(arg)
local oper,l,obj,skip,verbos,fams,flags,i,j,methods,flag,flag2,
lent,nam,val,erg,has,need,isconstructor;
if Length(arg)<2 or not IsList(arg[2]) or not IsFunction(arg[1]) then
Error("usage: ApplicableMethodTypes(<opr>,<arglist>[,<verbosity>[,<nr>]])");
fi;
oper:=arg[1];
isconstructor:=oper in CONSTRUCTORS;
obj:=arg[2];
if Length(arg)>2 then
verbos:=arg[3];
else
verbos:=0;
fi;
if Length(arg)>3 then
if IsInt( arg[4] ) then
skip:=arg[4] - 1;
else
skip:= -1;
fi;
erg:=[];
else
skip:=0;
fi;
l:=Length(obj);
# get families and filters
flags:=[];
fams:=[];
for i in obj do
if IsFilter(i) or IsIdenticalObj( i, IsObject ) then
Add(flags,FLAGS_FILTER(i));
Add(fams,fail);
elif IsType(i) then
Add(flags,i![2]);
Add(fams,i![1]);
else
Error("wrong kind of argument");
fi;
od;
if ForAny(fams,i->i=fail) then
fams:=fail;
Info(InfoWarning,1,"Family predicate cannot be tested");
fi;
methods:=METHODS_OPERATION(oper,l);
if verbos > 0 then
Print("#I Searching Method for ",NameFunction(oper)," with ",l,
" arguments:\n");
fi;
lent:=4+l; #length of one entry
if verbos > 0 then
Print("#I Total: ", Length(methods)/lent," entries\n");
fi;
for i in [1..Length(methods)/lent] do
nam:=methods[lent*(i-1)+l+4];
val:=methods[lent*(i-1)+l+3];
if verbos>1 then
Print("#I Method ",i,": ``",nam,"'', value: ");
Print_Value_SFF(val);
Print("\n");
fi;
flag:=true;
j:=1;
while j<=l and (flag or verbos>3) do
if j=1 and isconstructor then
flag2:=IS_SUBSET_FLAGS(methods[lent*(i-1)+1+j],flags[j]);
else
flag2:=IS_SUBSET_FLAGS(flags[j],methods[lent*(i-1)+1+j]);
fi;
flag:=flag and flag2;
if flag2=false and verbos>2 then
need:=NamesFilter(methods[lent*(i-1)+1+j]);
if j=1 and isconstructor then
Print("#I - ",Ordinal(j)," argument must be ",
need,"\n");
else
has:=NamesFilter(flags[j]);
Print("#I - ",Ordinal(j)," argument needs ",
Filtered(need,i->not i in has),"\n");
fi;
fi;
j:=j+1;
od;
if flag then
if fams=fail or CallFuncList(methods[lent*(i-1)+1],fams) then
if verbos=1 then
Print("#I Method ",i,": ``",nam,"'', value: ");
Print_Value_SFF(val);
Print("\n");
fi;
oper:=methods[lent*(i-1)+j+1];
if verbos>5 then
Print("#I Function Body:\n");
Print(oper);
fi;
if skip=0 then
return oper;
else
Add(erg,oper);
skip:=skip-1;
if verbos>0 then
Print("#I Skipped:\n");
fi;
fi;
elif verbos>2 then
Print("#I - bad family relations\n");
fi;
fi;
od;
if skip<0 then
return erg;
else
return fail;
fi;
end);
BIND_GLOBAL("ApplicableMethod",function(arg)
local i,l;
if Length(arg)<2 or not IsList(arg[2]) or not IsFunction(arg[1]) then
Error("usage: ApplicableMethod(<opr>,<arglist>[,<verbosity>[,<nr>]])");
fi;
l:=ShallowCopy(arg[2]);
for i in [1..Length(l)] do
if i=1 and arg[1] in CONSTRUCTORS then
l[i]:=l[i];
else
l[i]:=TypeObj(l[i]);
fi;
od;
arg[2]:=l;
return CallFuncList(ApplicableMethodTypes,arg);
end);
#############################################################################
##
#F ShowImpliedFilters( <filter> )
##
## <#GAPDoc Label="ShowImpliedFilters">
## <ManSection>
## <Func Name="ShowImpliedFilters" Arg='filter'/>
##
## <Description>
## Displays information about the filters that may be implied by
## <A>filter</A>. They are given by their names. <C>ShowImpliedFilters</C> first
## displays the names of all filters that are unconditionally implied by
## <A>filter</A>. It then displays implications that require further filters to
## be present (indicating by <C>+</C> the required further filters).
## The function displays only first-level implications, implications that
## follow in turn are not displayed (though &GAP; will do these).
## <Example><![CDATA[
## gap> ShowImpliedFilters(IsMatrix);
## Implies:
## IsGeneralizedRowVector
## IsNearAdditiveElementWithInverse
## IsAdditiveElement
## IsMultiplicativeElement
##
##
## May imply with:
## +IsGF2MatrixRep
## IsOrdinaryMatrix
##
## +CategoryCollections(CategoryCollections(IsAdditivelyCommutativeElement))
## IsAdditivelyCommutativeElement
##
## +IsInternalRep
## IsOrdinaryMatrix
##
## ]]></Example>
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("ShowImpliedFilters",function(fil)
local flags,f,i,j,l,m,n;
flags:=FLAGS_FILTER(fil);
f:=Filtered(IMPLICATIONS,x->IS_SUBSET_FLAGS(x[2],flags));
l:=[];
m:=[];
for i in f do
n:=SUB_FLAGS(i[2],flags); # the additional requirements
if SIZE_FLAGS(n)=0 then
Add(l,i[1]);
else
Add(m,[n,i[1]]);
fi;
od;
if Length(l)>0 then
Print("Implies:\n");
for i in l do
for j in NamesFilter(i) do
Print(" ",j,"\n");
od;
od;
fi;
if Length(m)>0 then
Print("\n\nMay imply with:\n");
for i in m do
for j in NamesFilter(i[1]) do
Print("+",j,"\n");
od;
for j in NamesFilter(i[2]) do
Print(" ",j,"\n");
od;
Print("\n");
od;
fi;
end);
#############################################################################
##
#F PageSource( func ) . . . . . . . . . . . . . . . show source code in pager
##
## <#GAPDoc Label="PageSource">
## <ManSection>
## <Func Name="PageSource" Arg='func'/>
##
## <Description>
## This shows the file containing the source code of the function or method
## <A>func</A> in a pager (see <Ref Func="Pager"/>). The display starts at
## a line shortly before the code of <A>func</A>.<P/>
##
## This function works if <C>FilenameFunc(<A>func</A>)</C> returns the name of
## a proper file. In that case this filename and the position of the
## function definition are also printed.
## Otherwise the function indicates that the source is not available
## (for example this happens for functions which are implemented in
## the &GAP; C-kernel).<P/>
##
## Usage examples:<Br/>
## <C>met := ApplicableMethod(\^, [(1,2),2743527]); PageSource(met);</C><Br/>
## <C>PageSource(Combinations);</C><Br/>
## <C>ct:=CharacterTable(Group((1,2,3))); </C><Br/>
## <C>met := ApplicableMethod(Size,[ct]); PageSource(met); </C>
## <P/>
## </Description>
## </ManSection>
## <#/GAPDoc>
BIND_GLOBAL("PageSource", function ( fun )
local f, l;
f := FILENAME_FUNC( fun );
if f = fail then
if IsKernelFunction(fun) then
Print("Cannot locate source of kernel function ",
NameFunction(fun),".\n");
else
Print( "Source not available.\n" );
fi;
elif not (IsExistingFile(f) and IsReadableFile(f)) then
Print( "Cannot access code from file \"",f,"\".\n");
else
l := Maximum(STARTLINE_FUNC( fun )-5, 1);
Print( "Showing source in ", f, " (from line ", l, ")\n" );
# Exec( Concatenation( "view +", String( l ), " ", f ) );
Pager(rec(lines := StringFile(f), formatted := true, start := l));
fi;
end);
#############################################################################
##
#E
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