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C Logic Subpackages
 C.1 LIRNG: Logical Implications for Rings
 C.2 LIMAP: Logical Implications for Ring Maps
 C.3 LIMAT: Logical Implications for Matrices
 C.4 COLEM: Clever Operations for Lazy Evaluated Matrices

C Logic Subpackages

C.1 LIRNG: Logical Implications for Rings

C.2 LIMAP: Logical Implications for Ring Maps

C.3 LIMAT: Logical Implications for Matrices

C.4 COLEM: Clever Operations for Lazy Evaluated Matrices

Most of the matrix tool operations listed in Appendix B.1 which return a new matrix are lazy evaluated. The value of a homalg matrix is stored in the attribute Eval. Below is the list of the installed methods for the attribute Eval.

C.4-1 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix C was created using HomalgInitialMatrix (5.2-1) then the filter IsInitialMatrix for C is set to true and the homalgTable function (--> InitialMatrix (B.1-1)) will be used to set the attribute Eval and resets the filter IsInitialMatrix.

InstallMethod( Eval,
        "for homalg matrices (IsInitialMatrix)",
        [ IsHomalgMatrix and IsInitialMatrix and
          HasNrRows and HasNrColumns ],
        
  function( C )
    local R, RP, z, zz;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    if IsBound( RP!.InitialMatrix ) then
        ResetFilterObj( C, IsInitialMatrix );
        return RP!.InitialMatrix( C );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called InitialMatrix in the ",
               "homalgTable to evaluate a non-internal initial matrix\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    z := Zero( HomalgRing( C ) );
    
    ResetFilterObj( C, IsInitialMatrix );
    
    zz := ListWithIdenticalEntries( NrColumns( C ), z );
    
    return homalgInternalMatrixHull(
                   List( [ 1 .. NrRows( C ) ], i -> ShallowCopy( zz ) ) );
    
end );

C.4-2 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix C was created using HomalgInitialIdentityMatrix (5.2-2) then the filter IsInitialIdentityMatrix for C is set to true and the homalgTable function (--> InitialIdentityMatrix (B.1-2)) will be used to set the attribute Eval and resets the filter IsInitialIdentityMatrix.

InstallMethod( Eval,
        "for homalg matrices (IsInitialIdentityMatrix)",
        [ IsHomalgMatrix and IsInitialIdentityMatrix and
          HasNrRows and HasNrColumns ],
        
  function( C )
    local R, RP, o, z, zz, id;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    if IsBound( RP!.InitialIdentityMatrix ) then
        ResetFilterObj( C, IsInitialIdentityMatrix );
        return RP!.InitialIdentityMatrix( C );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called InitialIdentityMatrix in the ",
               "homalgTable to evaluate a non-internal initial identity matrix\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    z := Zero( HomalgRing( C ) );
    o := One( HomalgRing( C ) );
    
    ResetFilterObj( C, IsInitialIdentityMatrix );
    
    zz := ListWithIdenticalEntries( NrColumns( C ), z );
    
    id := List( [ 1 .. NrRows( C ) ],
                function(i)
                  local z;
                  z := ShallowCopy( zz ); z[i] := o; return z;
                end );
    
    return homalgInternalMatrixHull( id );
    
end );

C.4-3 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix C was created using HomalgZeroMatrix (5.2-3) then the filter IsZeroMatrix for C is set to true and the homalgTable function (--> ZeroMatrix (B.1-3)) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (IsZero)",
        [ IsHomalgMatrix and IsZero and HasNrRows and HasNrColumns ], 20,
        
  function( C )
    local R, RP, z;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    if ( NrRows( C ) = 0 or NrColumns( C ) = 0 ) and
       not ( IsBound( R!.SafeToEvaluateEmptyMatrices ) and
             R!.SafeToEvaluateEmptyMatrices = true ) then
        Info( InfoWarning, 1, "\033[01m\033[5;31;47m",
              "an empty matrix is about to get evaluated!",
              "\033[0m" );
    fi;
    
    if IsBound( RP!.ZeroMatrix ) then
        return RP!.ZeroMatrix( C );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called ZeroMatrix ",
               "homalgTable to evaluate a non-internal zero matrix\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    z := Zero( HomalgRing( C ) );
    
    ## copying the rows saves memory;
    ## we assume that the entries are never modified!!!
    return homalgInternalMatrixHull(
                   ListWithIdenticalEntries( NrRows( C ),
                           ListWithIdenticalEntries( NrColumns( C ), z ) ) );
    
end );

C.4-4 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix C was created using HomalgIdentityMatrix (5.2-4) then the filter IsOne for C is set to true and the homalgTable function (--> IdentityMatrix (B.1-4)) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (IsOne)",
        [ IsHomalgMatrix and IsOne and HasNrRows and HasNrColumns ], 10,
        
  function( C )
    local R, id, RP, o, z, zz;
    
    R := HomalgRing( C );
    
    if IsBound( R!.IdentityMatrices ) then
        id := ElmWPObj( R!.IdentityMatrices!.weak_pointers, NrColumns( C ) );
        if id <> fail then
            R!.IdentityMatrices!.cache_hits := R!.IdentityMatrices!.cache_hits + 1;
            return id;
        fi;
        ## we do not count cache_misses as it is equivalent to counter
    fi;
    
    RP := homalgTable( R );
    
    if IsBound( RP!.IdentityMatrix ) then
        id := RP!.IdentityMatrix( C );
        SetElmWPObj( R!.IdentityMatrices!.weak_pointers, NrColumns( C ), id );
        R!.IdentityMatrices!.counter := R!.IdentityMatrices!.counter + 1;
        return id;
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called IdentityMatrix ",
               "homalgTable to evaluate a non-internal identity matrix\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    z := Zero( HomalgRing( C ) );
    o := One( HomalgRing( C ) );
    
    zz := ListWithIdenticalEntries( NrColumns( C ), z );
    
    id := List( [ 1 .. NrRows( C ) ],
                function(i)
                  local z;
                  z := ShallowCopy( zz ); z[i] := o; return z;
                end );
    
    id := homalgInternalMatrixHull( id );
    
    SetElmWPObj( R!.IdentityMatrices!.weak_pointers, NrColumns( C ), id );
    
    return id;
    
end );

C.4-5 Eval
‣ Eval( LI )( method )

Returns: see below

In case the matrix LI was created using LeftInverseLazy (5.5-4) then the filter HasEvalLeftInverse for LI is set to true and the method listed below will be used to set the attribute Eval. (--> LeftInverse (5.5-2))

InstallMethod( Eval,
        "for homalg matrices",
        [ IsHomalgMatrix and HasEvalLeftInverse ],
        
  function( LI )
    local left_inv;
    
    left_inv := LeftInverse( EvalLeftInverse( LI ) );
    
    if IsBool( left_inv ) then
        return false;
    fi;
    
    return Eval( left_inv );
    
end );

C.4-6 Eval
‣ Eval( RI )( method )

Returns: see below

In case the matrix RI was created using RightInverseLazy (5.5-5) then the filter HasEvalRightInverse for RI is set to true and the method listed below will be used to set the attribute Eval. (--> RightInverse (5.5-3))

InstallMethod( Eval,
        "for homalg matrices",
        [ IsHomalgMatrix and HasEvalRightInverse ],
        
  function( RI )
    local right_inv;
    
    right_inv := RightInverse( EvalRightInverse( RI ) );
    
    if IsBool( right_inv ) then
        return false;
    fi;
    
    return Eval( right_inv );
    
end );

C.4-7 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using Involution (5.5-6) then the filter HasEvalInvolution for C is set to true and the homalgTable function Involution (B.1-5) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalInvolution)",
        [ IsHomalgMatrix and HasEvalInvolution ],
        
  function( C )
    local R, RP, M;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    M :=  EvalInvolution( C );
    
    if IsBound(RP!.Involution) then
        return RP!.Involution( M );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called Involution ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return homalgInternalMatrixHull( TransposedMat( Eval( M )!.matrix ) );
    
end );

C.4-8 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using CertainRows (5.5-7) then the filter HasEvalCertainRows for C is set to true and the homalgTable function CertainRows (B.1-6) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalCertainRows)",
        [ IsHomalgMatrix and HasEvalCertainRows ],
        
  function( C )
    local R, RP, e, M, plist;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalCertainRows( C );
    
    M := e[1];
    plist := e[2];
    
    if IsBound(RP!.CertainRows) then
        return RP!.CertainRows( M, plist );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called CertainRows ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return homalgInternalMatrixHull( Eval( M )!.matrix{ plist } );
    
end );

C.4-9 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using CertainColumns (5.5-8) then the filter HasEvalCertainColumns for C is set to true and the homalgTable function CertainColumns (B.1-7) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalCertainColumns)",
        [ IsHomalgMatrix and HasEvalCertainColumns ],
        
  function( C )
    local R, RP, e, M, plist;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalCertainColumns( C );
    
    M := e[1];
    plist := e[2];
    
    if IsBound(RP!.CertainColumns) then
        return RP!.CertainColumns( M, plist );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called CertainColumns ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return homalgInternalMatrixHull(
                   Eval( M )!.matrix{[ 1 .. NrRows( M ) ]}{plist} );
    
end );

C.4-10 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using UnionOfRows (5.5-9) then the filter HasEvalUnionOfRows for C is set to true and the homalgTable function UnionOfRows (B.1-8) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalUnionOfRows)",
        [ IsHomalgMatrix and HasEvalUnionOfRows ],
        
  function( C )
    local R, RP, e, A, B, U;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalUnionOfRows( C );
    
    A := e[1];
    B := e[2];
    
    if IsBound(RP!.UnionOfRows) then
        return RP!.UnionOfRows( A, B );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called UnionOfRows ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    U := ShallowCopy( Eval( A )!.matrix );
    
    U{ [ NrRows( A ) + 1 .. NrRows( A ) + NrRows( B ) ] } := Eval( B )!.matrix;
    
    return homalgInternalMatrixHull( U );
    
end );

C.4-11 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using UnionOfColumns (5.5-10) then the filter HasEvalUnionOfColumns for C is set to true and the homalgTable function UnionOfColumns (B.1-9) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalUnionOfColumns)",
        [ IsHomalgMatrix and HasEvalUnionOfColumns ],
        
  function( C )
    local R, RP, e, A, B, U;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalUnionOfColumns( C );
    
    A := e[1];
    B := e[2];
    
    if IsBound(RP!.UnionOfColumns) then
        return RP!.UnionOfColumns( A, B );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called UnionOfColumns ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    U := List( Eval( A )!.matrix, ShallowCopy );
    
    U{ [ 1 .. NrRows( A ) ] }
      { [ NrColumns( A ) + 1 .. NrColumns( A ) + NrColumns( B ) ] }
      := Eval( B )!.matrix;
    
    return homalgInternalMatrixHull( U );
    
end );

C.4-12 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using DiagMat (5.5-11) then the filter HasEvalDiagMat for C is set to true and the homalgTable function DiagMat (B.1-10) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalDiagMat)",
        [ IsHomalgMatrix and HasEvalDiagMat ],
        
  function( C )
    local R, RP, e, z, m, n, diag, mat;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalDiagMat( C );
    
    if IsBound(RP!.DiagMat) then
        return RP!.DiagMat( e );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called DiagMat ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    z := Zero( R );
    
    m := Sum( List( e, NrRows ) );
    n := Sum( List( e, NrColumns ) );
    
    diag := List( [ 1 .. m ], a -> List( [ 1 .. n ], b -> z ) );
    
    m := 0;
    n := 0;
    
    for mat in e do
        diag{ [ m + 1 .. m + NrRows( mat ) ] }{ [ n + 1 .. n + NrColumns( mat ) ] }
          := Eval( mat )!.matrix;
        
        m := m + NrRows( mat );
        n := n + NrColumns( mat );
    od;
    
    return homalgInternalMatrixHull( diag );
    
end );

C.4-13 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using KroneckerMat (5.5-12) then the filter HasEvalKroneckerMat for C is set to true and the homalgTable function KroneckerMat (B.1-11) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalKroneckerMat)",
        [ IsHomalgMatrix and HasEvalKroneckerMat ],
        
  function( C )
    local R, RP, A, B;
    
    R := HomalgRing( C );
    
    if ( HasIsCommutative( R ) and not IsCommutative( R ) ) and
       ( HasIsSuperCommutative( R ) and not IsSuperCommutative( R ) ) then
        Info( InfoWarning, 1, "\033[01m\033[5;31;47m",
              "the Kronecker product is only defined for (super) commutative rings!",
              "\033[0m" );
    fi;
    
    RP := homalgTable( R );
    
    A :=  EvalKroneckerMat( C )[1];
    B :=  EvalKroneckerMat( C )[2];
    
    if IsBound(RP!.KroneckerMat) then
        return RP!.KroneckerMat( A, B );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called KroneckerMat ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return homalgInternalMatrixHull(
                   KroneckerProduct( Eval( A )!.matrix, Eval( B )!.matrix ) );
    ## this was easy, thanks GAP :)
    
end );

C.4-14 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using \* (5.5-13) then the filter HasEvalMulMat for C is set to true and the homalgTable function MulMat (B.1-12) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalMulMat)",
        [ IsHomalgMatrix and HasEvalMulMat ],
        
  function( C )
    local R, RP, e, a, A;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalMulMat( C );
    
    a := e[1];
    A := e[2];
    
    if IsBound(RP!.MulMat) then
        return RP!.MulMat( a, A );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called MulMat ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return a * Eval( A );
    
end );

InstallMethod( Eval,
        "for homalg matrices (HasEvalMulMatRight)",
        [ IsHomalgMatrix and HasEvalMulMatRight ],
        
  function( C )
    local R, RP, e, A, a;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalMulMatRight( C );
    
    A := e[1];
    a := e[2];
    
    if IsBound(RP!.MulMatRight) then
        return RP!.MulMatRight( A, a );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called MulMatRight ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return Eval( A ) * a;
    
end );

C.4-15 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using \+ (5.5-14) then the filter HasEvalAddMat for C is set to true and the homalgTable function AddMat (B.1-13) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalAddMat)",
        [ IsHomalgMatrix and HasEvalAddMat ],
        
  function( C )
    local R, RP, e, A, B;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalAddMat( C );
    
    A := e[1];
    B := e[2];
    
    if IsBound(RP!.AddMat) then
        return RP!.AddMat( A, B );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called AddMat ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return Eval( A ) + Eval( B );
    
end );

C.4-16 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using \- (5.5-15) then the filter HasEvalSubMat for C is set to true and the homalgTable function SubMat (B.1-14) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalSubMat)",
        [ IsHomalgMatrix and HasEvalSubMat ],
        
  function( C )
    local R, RP, e, A, B;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalSubMat( C );
    
    A := e[1];
    B := e[2];
    
    if IsBound(RP!.SubMat) then
        return RP!.SubMat( A, B );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called SubMat ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return Eval( A ) - Eval( B );
    
end );

C.4-17 Eval
‣ Eval( C )( method )

Returns: the Eval value of a homalg matrix C

In case the matrix was created using \* (5.5-16) then the filter HasEvalCompose for C is set to true and the homalgTable function Compose (B.1-15) will be used to set the attribute Eval.

InstallMethod( Eval,
        "for homalg matrices (HasEvalCompose)",
        [ IsHomalgMatrix and HasEvalCompose ],
        
  function( C )
    local R, RP, e, A, B;
    
    R := HomalgRing( C );
    
    RP := homalgTable( R );
    
    e :=  EvalCompose( C );
    
    A := e[1];
    B := e[2];
    
    if IsBound(RP!.Compose) then
        return RP!.Compose( A, B );
    fi;
    
    if not IsHomalgInternalMatrixRep( C ) then
        Error( "could not find a procedure called Compose ",
               "in the homalgTable of the non-internal ring\n" );
    fi;
    
    #=====# can only work for homalg internal matrices #=====#
    
    return Eval( A ) * Eval( B );
    
end );
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