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#############################################################################
#
# matobjplist.gi
# by Max Neunhöffer
#
# Copyright (C) 2006 by Lehrstuhl D für Mathematik, RWTH Aachen
#
# This file is a sample implementation for new style vectors and matrices.
# It stores matrices as dense lists of lists with wrapping.
#
############################################################################
############################################################################
# Constructors:
############################################################################
InstallGlobalFunction( MakePlistVectorType,
function( basedomain, filter )
local T, filter2;
if HasCanEasilyCompareElements(Representative(basedomain)) and
CanEasilyCompareElements(Representative(basedomain)) then
filter2 := filter and IsMutable and CanEasilyCompareElements;
fi;
if IsIdenticalObj(basedomain,Integers) then
T := NewType(FamilyObj(basedomain),
filter2 and IsIntVector);
elif IsFinite(basedomain) and IsField(basedomain) then
T := NewType(FamilyObj(basedomain),
filter2 and IsFFEVector);
else
T := NewType(FamilyObj(basedomain),
filter2);
fi;
return T;
end);
InstallMethod( NewRowVector, "for IsPlistVectorRep, a ring, and a list",
[ IsPlistVectorRep and IsCheckingVector, IsRing, IsList ],
function( filter, basedomain, l )
local typ, v;
typ := MakePlistVectorType(basedomain,filter);
v := [basedomain,ShallowCopy(l)];
Objectify(typ,v);
return v;
end );
InstallMethod( NewZeroVector, "for IsPlistVectorRep, a ring, and an int",
[ IsPlistVectorRep and IsCheckingVector, IsRing, IsInt ],
function( filter, basedomain, l )
local typ, v;
typ := MakePlistVectorType(basedomain,filter);
v := [basedomain,Zero(basedomain)*[1..l]];
Objectify(typ,v);
return v;
end );
InstallMethod( NewMatrix,
"for IsPlistMatrixRep, a ring, an int, and a list",
[ IsPlistMatrixRep and IsCheckingMatrix, IsRing, IsInt, IsList ],
function( filter, basedomain, rl, l )
local m,i,e,filter2;
if IsIdenticalObj(IsPlistMatrixRep,filter) then
filter2 := IsPlistVectorRep;
else
filter2 := IsPlistVectorRep and IsCheckingVector;
fi;
m := 0*[1..Length(l)];
e := NewRowVector(filter2, basedomain, []);
for i in [1..Length(l)] do
if IsRowVectorObj(l[i]) and IsPlistVectorRep(l[i]) then
m[i] := ShallowCopy(l[i]);
else
m[i] := Vector( l[i], e );
fi;
od;
m := [basedomain,e,rl,m];
filter2 := filter and IsMutable;
if HasCanEasilyCompareElements(Representative(basedomain)) and
CanEasilyCompareElements(Representative(basedomain)) then
filter2 := filter2 and CanEasilyCompareElements;
fi;
Objectify( NewType(CollectionsFamily(FamilyObj(basedomain)),
filter2), m );
return m;
end );
InstallMethod( NewZeroMatrix,
"for IsPlistMatrixRep, a ring, and two ints",
[ IsPlistMatrixRep and IsCheckingMatrix, IsRing, IsInt, IsInt ],
function( filter, basedomain, rows, cols )
local m,i,e,filter2;
if IsIdenticalObj(IsPlistMatrixRep,filter) then
filter2 := IsPlistVectorRep;
else
filter2 := IsPlistVectorRep and IsCheckingVector;
fi;
m := 0*[1..rows];
e := NewRowVector(filter2, basedomain, []);
for i in [1..rows] do
m[i] := ZeroVector( cols, e );
od;
m := [basedomain,e,cols,m];
Objectify( NewType(CollectionsFamily(FamilyObj(basedomain)),
filter and IsMutable), m );
return m;
end );
InstallMethod( NewIdentityMatrix,
"for IsPlistMatrixRep, a ring, and an int",
[ IsPlistMatrixRep and IsCheckingMatrix, IsRing, IsInt ],
function( filter, basedomain, rows )
local m,i,e,filter2;
if IsIdenticalObj(IsPlistMatrixRep,filter) then
filter2 := IsPlistVectorRep;
else
filter2 := IsPlistVectorRep and IsCheckingVector;
fi;
m := 0*[1..rows];
e := NewRowVector(IsPlistVectorRep, basedomain, []);
for i in [1..rows] do
m[i] := ZeroVector( rows, e );
m[i][i] := One(basedomain);
od;
m := [basedomain,e,rows,m];
Objectify( NewType(CollectionsFamily(FamilyObj(basedomain)),
filter and IsMutable), m );
return m;
end );
############################################################################
# Printing and viewing methods:
############################################################################
InstallMethod( ViewObj, "for a plist vector", [ IsPlistVectorRep ],
function( v )
if not(IsMutable(v)) then
Print("<immutable ");
else
Print("<");
fi;
if IsCheckingVector(v) then Print("checking "); fi;
Print("plist vector over ",v![BDPOS]," of length ",Length(v![ELSPOS]),">");
end );
InstallMethod( PrintObj, "for a plist vector", [ IsPlistVectorRep ],
function( v )
Print("NewRowVector(IsPlistVectorRep");
if IsCheckingVector(v) then
Print(" and IsCheckingVector");
fi;
if IsFinite(v![BDPOS]) and IsField(v![BDPOS]) then
Print(",GF(",Size(v![BDPOS]),"),",v![ELSPOS],")");
else
Print(",",String(v![BDPOS]),",",v![ELSPOS],")");
fi;
end );
InstallMethod( String, "for a plist vector", [ IsPlistVectorRep ],
function( v )
local st;
st := "NewRowVector(IsPlistVectorRep";
if IsCheckingVector(v) then
Append(st," and IsCheckingVector");
fi;
if IsFinite(v![BDPOS]) and IsField(v![BDPOS]) then
Append(st,Concatenation( ",GF(",String(Size(v![BDPOS])),"),",
String(v![ELSPOS]),")" ));
else
Append(st,Concatenation( ",",String(v![BDPOS]),",",
String(v![ELSPOS]),")" ));
fi;
return st;
end );
InstallMethod( Display, "for a plist vector", [ IsPlistVectorRep ],
function( v )
Print( "<a " );
if IsCheckingVector(v) then Print( "checking " ); fi;
Print( "plist vector over ",BaseDomain(v),":\n");
Print(v![ELSPOS],"\n>\n");
end );
############################################################################
############################################################################
# Vectors:
############################################################################
############################################################################
############################################################################
# The basic attributes:
############################################################################
InstallMethod( BaseDomain, "for a plist vector", [ IsPlistVectorRep ],
function( v )
return v![BDPOS];
end );
InstallMethod( Length, "for a plist vector", [ IsPlistVectorRep ],
function( v )
return Length(v![ELSPOS]);
end );
############################################################################
# Representation preserving constructors:
############################################################################
InstallMethod( ZeroVector, "for an integer and a plist vector",
[ IsInt, IsPlistVectorRep ],
function( l, t )
local v;
v := Objectify(TypeObj(t),
[t![BDPOS],ListWithIdenticalEntries(l,Zero(t![BDPOS]))]);
if not(IsMutable(v)) then SetFilterObj(v,IsMutable); fi;
return v;
end );
InstallMethod( ZeroVector, "for an integer and a plist matrix",
[ IsInt, IsPlistMatrixRep ],
function( l, m )
local v;
v := Objectify(TypeObj(m![EMPOS]),
[m![BDPOS],ListWithIdenticalEntries(l,Zero(m![BDPOS]))]);
if not(IsMutable(v)) then SetFilterObj(v,IsMutable); fi;
return v;
end );
InstallMethod( Vector, "for a plain list and a plist vector",
[ IsList and IsPlistRep, IsPlistVectorRep ],
function( l, t )
local v;
v := Objectify(TypeObj(t),[t![BDPOS],l]);
if not(IsMutable(v)) then SetFilterObj(v,IsMutable); fi;
return v;
end );
InstallMethod( Vector, "for a list and a plist vector",
[ IsList, IsPlistVectorRep ],
function( l, t )
local v;
v := ShallowCopy(l);
if IsGF2VectorRep(l) then
PLAIN_GF2VEC(v);
elif Is8BitVectorRep(l) then
PLAIN_VEC8BIT(v);
fi;
v := Objectify(TypeObj(t),[t![BDPOS],v]);
if not(IsMutable(v)) then SetFilterObj(v,IsMutable); fi;
return v;
end );
############################################################################
# A selection of list operations:
############################################################################
InstallMethod( \[\], "for a plist vector and a positive integer",
[ IsPlistVectorRep, IsPosInt ],
function( v, p )
return v![ELSPOS][p];
end );
InstallMethod( \[\]\:\=,
"for a checking plist vector, a positive integer, and an obj",
[ IsPlistVectorRep and IsCheckingVector, IsPosInt, IsObject ],
function( v, p, ob )
if p > Length(v![ELSPOS]) then
Error("\\[\\]\\:\\=: Assignment out of bounds!");
return;
fi;
if not(ob in v![BDPOS]) then
Error("\\[\\]\\:\\=: Object to be assigned is not in base domain");
return;
fi;
v![ELSPOS][p] := ob;
end );
InstallMethod( \[\]\:\=, "for a plist vector, a positive integer, and an obj",
[ IsPlistVectorRep, IsPosInt, IsObject ],
function( v, p, ob )
v![ELSPOS][p] := ob;
end );
InstallMethod( \{\}, "for a plist vector and a list",
[ IsPlistVectorRep, IsList ],
function( v, l )
return Objectify(TypeObj(v),[v![BDPOS],v![ELSPOS]{l}]);
end );
InstallMethod( PositionNonZero, "for a plist vector", [ IsPlistVectorRep ],
function( v )
return PositionNonZero( v![ELSPOS] );
end );
InstallMethod( PositionLastNonZero, "for a plist vector", [ IsPlistVectorRep ],
function( v )
local els,i;
els := v![ELSPOS];
i := Length(els);
while i > 0 and IsZero(els[i]) do i := i - 1; od;
if i > 0 then
return i;
else
return fail;
fi;
end );
InstallMethod( ListOp, "for a plist vector", [ IsPlistVectorRep ],
function( v )
return v![ELSPOS]{[1..Length(v![ELSPOS])]};
end );
InstallMethod( ListOp, "for a plist vector and a function",
[ IsPlistVectorRep, IsFunction ],
function( v, f )
return List(v![ELSPOS],f);
end );
InstallMethod( Unpack, "for a plist vector",
[ IsPlistVectorRep ],
function( v )
return ShallowCopy(v![ELSPOS]);
end );
############################################################################
# Standard operations for all objects:
############################################################################
InstallMethod( ShallowCopy, "for a plist vector", [ IsPlistVectorRep ],
function( v )
local res;
res := Objectify(TypeObj(v),[v![BDPOS],ShallowCopy(v![ELSPOS])]);
if not(IsMutable(v)) then SetFilterObj(res,IsMutable); fi;
return res;
end );
# StructuralCopy works automatically
InstallMethod( PostMakeImmutable, "for a plist vector", [ IsPlistVectorRep ],
function( v )
MakeImmutable( v![ELSPOS] );
end );
############################################################################
# Arithmetical operations:
############################################################################
InstallMethod( \+, "for two plist vectors",
[ IsPlistVectorRep, IsPlistVectorRep ],
function( a, b )
local ty;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,
[a![BDPOS],SUM_LIST_LIST_DEFAULT(a![ELSPOS],b![ELSPOS])]);
end );
InstallMethod( \+, "for two checking plist vectors",
[ IsPlistVectorRep and IsCheckingVector,
IsPlistVectorRep and IsCheckingVector],
function( a, b )
local ty;
if Length(a![ELSPOS]) <> Length(b![ELSPOS]) then
Error("\\+: Cannot add vectors of different length");
return fail;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("\\+: Cannot add vectors over different base domains");
return fail;
fi;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,
[a![BDPOS],SUM_LIST_LIST_DEFAULT(a![ELSPOS],b![ELSPOS])]);
end );
InstallMethod( \-, "for two plist vectors",
[ IsPlistVectorRep, IsPlistVectorRep ],
function( a, b )
local ty;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,
[a![BDPOS],DIFF_LIST_LIST_DEFAULT(a![ELSPOS],b![ELSPOS])]);
end );
InstallMethod( \-, "for two checking plist vectors",
[ IsPlistVectorRep and IsCheckingVector,
IsPlistVectorRep and IsCheckingVector],
function( a, b )
local ty;
if Length(a![ELSPOS]) <> Length(b![ELSPOS]) then
Error("\\-: Cannot subtract vectors of different length");
return fail;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("\\-: Cannot subtract vectors over different base domains");
return fail;
fi;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,
[a![BDPOS],DIFF_LIST_LIST_DEFAULT(a![ELSPOS],b![ELSPOS])]);
end );
InstallMethod( \=, "for two plist vectors",
[ IsPlistVectorRep, IsPlistVectorRep ],
function( a, b )
return EQ_LIST_LIST_DEFAULT(a![ELSPOS],b![ELSPOS]);
end );
InstallMethod( \<, "for two plist vectors",
[ IsPlistVectorRep, IsPlistVectorRep ],
function( a, b )
return LT_LIST_LIST_DEFAULT(a![ELSPOS],b![ELSPOS]);
end );
InstallMethod( AddRowVector, "for two plist vectors",
[ IsPlistVectorRep and IsMutable, IsPlistVectorRep ],
function( a, b )
ADD_ROW_VECTOR_2( a![ELSPOS], b![ELSPOS] );
end );
InstallMethod( AddRowVector, "for two checking plist vectors",
[ IsPlistVectorRep and IsCheckingVector and IsMutable,
IsPlistVectorRep and IsCheckingVector ],
function( a, b )
if Length(a![ELSPOS]) <> Length(b![ELSPOS]) then
Error("AddRowVector: Cannot add vectors of different length");
return;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("AddRowVector: Cannot add vectors over different base domains");
return;
fi;
ADD_ROW_VECTOR_2( a![ELSPOS], b![ELSPOS] );
end );
# Better method for integer vectors:
InstallMethod( AddRowVector, "for two plist vectors",
[ IsPlistVectorRep and IsMutable and IsIntVector,
IsPlistVectorRep and IsIntVector ],
function( a, b )
ADD_ROW_VECTOR_2_FAST( a![ELSPOS], b![ELSPOS] );
end );
InstallMethod( AddRowVector, "for two plist vectors, and a scalar",
[ IsPlistVectorRep and IsMutable, IsPlistVectorRep, IsObject ],
function( a, b, s )
ADD_ROW_VECTOR_3( a![ELSPOS], b![ELSPOS], s );
end );
InstallMethod( AddRowVector, "for two checking plist vectors, and a scalar",
[ IsPlistVectorRep and IsCheckingVector and IsMutable,
IsPlistVectorRep and IsCheckingVector, IsObject ],
function( a, b, s )
if Length(a![ELSPOS]) <> Length(b![ELSPOS]) then
Error("AddRowVector: Cannot subtract vectors of different length");
return;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("AddRowVector: Cannot add vectors over different base domains");
return;
fi;
ADD_ROW_VECTOR_3( a![ELSPOS], b![ELSPOS], s );
end );
# Better method for integer vectors:
InstallMethod( AddRowVector, "for two plist vectors, and a scalar",
[ IsPlistVectorRep and IsIntVector and IsMutable,
IsPlistVectorRep and IsIntVector, IsObject ],
function( a, b, s )
if IsSmallIntRep(s) then
ADD_ROW_VECTOR_3_FAST( a![ELSPOS], b![ELSPOS], s );
else
ADD_ROW_VECTOR_3( a![ELSPOS], b![ELSPOS], s );
fi;
end );
InstallMethod( AddRowVector,
"for two plist vectors, a scalar, and two positions",
[ IsPlistVectorRep and IsMutable, IsPlistVectorRep,
IsObject, IsPosInt, IsPosInt ],
function( a, b, s, from, to )
ADD_ROW_VECTOR_5( a![ELSPOS], b![ELSPOS], s, from, to );
end );
InstallMethod( AddRowVector,
"for two checking plist vectors, a scalar, and two positions",
[ IsPlistVectorRep and IsCheckingVector and IsMutable,
IsPlistVectorRep and IsCheckingVector, IsObject, IsPosInt, IsPosInt ],
function( a, b, s, from, to )
if Length(a![ELSPOS]) <> Length(b![ELSPOS]) then
Error("AddRowVector: Cannot add vectors of different length");
return;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("AddRowVector: Cannot add vectors over different base domains");
return;
fi;
ADD_ROW_VECTOR_5( a![ELSPOS], b![ELSPOS], s, from, to );
end );
# Better method for integer vectors:
InstallMethod( AddRowVector,
"for two integer plist vectors, a scalar, and two positions",
[ IsPlistVectorRep and IsIntVector and IsMutable,
IsPlistVectorRep and IsIntVector, IsObject, IsPosInt, IsPosInt ],
function( a, b, s, from, to )
if IsSmallIntRep(s) then
ADD_ROW_VECTOR_5_FAST( a![ELSPOS], b![ELSPOS], s, from, to );
else
ADD_ROW_VECTOR_5( a![ELSPOS], b![ELSPOS], s, from, to );
fi;
end );
InstallMethod( MultRowVector, "for a plist vector, and a scalar",
[ IsPlistVectorRep and IsMutable, IsObject ],
function( v, s )
MULT_ROW_VECTOR_2(v![ELSPOS],s);
end );
InstallMethod( MultRowVector, "for a checking plist vector, and a scalar",
[ IsPlistVectorRep and IsCheckingVector and IsMutable, IsObject ],
function( v, s )
if not(s in v![BDPOS]) then
Error("MultRowVector: Scalar is not in base domain");
return;
fi;
MULT_ROW_VECTOR_2(v![ELSPOS],s);
end );
InstallMethod( MultRowVector, "for a plist vector, and a scalar",
[ IsPlistVectorRep and IsIntVector and IsMutable, IsObject ],
function( v, s )
if IsSmallIntRep(s) then
MULT_ROW_VECTOR_2_FAST(v![ELSPOS],s);
else
MULT_ROW_VECTOR_2(v![ELSPOS],s);
fi;
end );
InstallMethod( MultRowVector,
"for a plist vector, a list, a plist vector, a list, and a scalar",
[ IsPlistVectorRep and IsMutable, IsList,
IsPlistVectorRep, IsList, IsObject ],
function( a, pa, b, pb, s )
a![ELSPOS]{pa} := b![ELSPOS]{pb} * s;
end );
InstallMethod( MultRowVector,
"for a checking plist vector, a list, a ch. plist vector, a list, a scalar",
[ IsPlistVectorRep and IsCheckingVector and IsMutable, IsList,
IsPlistVectorRep and IsCheckingVector, IsList, IsObject ],
function( a, pa, b, pb, s )
local l;
l := Length(a![ELSPOS]);
if not(ForAll(pa,x->x >= 1 and x <= l)) then
Error("MultRowVector: Positions pa must lie in first vector");
return;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("MultRowVector: Cannot add vectors over different base domains");
return;
fi;
if not(s in a![BDPOS]) then
Error("MultRowVector: Scalar not in base domain");
return;
fi;
a![ELSPOS]{pa} := b![ELSPOS]{pb} * s;
end );
InstallMethod( \*, "for a plist vector and a scalar",
[ IsPlistVectorRep, IsScalar ],
function( v, s )
return Objectify( TypeObj(v),
[v![BDPOS],PROD_LIST_SCL_DEFAULT(v![ELSPOS],s)] );
end );
InstallMethod( \*, "for a checking plist vector and a scalar",
[ IsPlistVectorRep, IsScalar ],
function( v, s )
if not(s in v![BDPOS]) then
Error("\\*: Scalar not in base domain");
return;
fi;
return Objectify( TypeObj(v),
[v![BDPOS],PROD_LIST_SCL_DEFAULT(v![ELSPOS],s)] );
end );
InstallMethod( \*, "for a scalar and a plist vector",
[ IsScalar, IsPlistVectorRep ],
function( s, v )
return Objectify( TypeObj(v),
[v![BDPOS],PROD_SCL_LIST_DEFAULT(s,v![ELSPOS])] );
end );
InstallMethod( \*, "for a scalar and a checking plist vector",
[ IsScalar, IsPlistVectorRep ],
function( s, v )
if not(s in v![BDPOS]) then
Error("\\*: Scalar not in base domain");
return;
fi;
return Objectify( TypeObj(v),
[v![BDPOS],PROD_SCL_LIST_DEFAULT(s,v![ELSPOS])] );
end );
InstallMethod( \/, "for a plist vector and a scalar",
[ IsPlistVectorRep, IsScalar ],
function( v, s )
return Objectify( TypeObj(v),
[v![BDPOS],PROD_LIST_SCL_DEFAULT(v![ELSPOS],s^-1)] );
end );
InstallMethod( \/, "for a checking plist vector and a scalar",
[ IsPlistVectorRep and IsCheckingVector, IsScalar ],
function( v, s )
local res;
if not(s in v![BDPOS]) then
Error("\\/: Scalar not in base domain");
return;
fi;
res := Objectify( TypeObj(v),
[v![BDPOS],PROD_LIST_SCL_DEFAULT(v![ELSPOS],s^-1)] );
if IsIntVector(v) and not(ForAll(res![ELSPOS],IsInt)) then
Error("\\/: Result is not an integer vector");
return;
fi;
return res;
end );
InstallMethod( AdditiveInverseSameMutability, "for a plist vector",
[ IsPlistVectorRep ],
function( v )
return Objectify( TypeObj(v),
[v![BDPOS],AdditiveInverseSameMutability(v![ELSPOS])] );
end );
InstallMethod( AdditiveInverseImmutable, "for a plist vector",
[ IsPlistVectorRep ],
function( v )
local res;
res := Objectify( TypeObj(v),
[v![BDPOS],AdditiveInverseSameMutability(v![ELSPOS])] );
MakeImmutable(res);
return res;
end );
InstallMethod( AdditiveInverseMutable, "for a plist vector",
[ IsPlistVectorRep ],
function( v )
local res;
res := Objectify(TypeObj(v),
[v![BDPOS],AdditiveInverseMutable(v![ELSPOS])]);
if not(IsMutable(v)) then SetFilterObj(res,IsMutable); fi;
return res;
end );
InstallMethod( ZeroSameMutability, "for a plist vector", [ IsPlistVectorRep ],
function( v )
return Objectify(TypeObj(v),[v![BDPOS],ZeroSameMutability(v![ELSPOS])]);
end );
InstallMethod( ZeroImmutable, "for a plist vector", [ IsPlistVectorRep ],
function( v )
local res;
res := Objectify(TypeObj(v),[v![BDPOS],ZeroImmutable(v![ELSPOS])]);
MakeImmutable(res);
return res;
end );
InstallMethod( ZeroMutable, "for a plist vector", [ IsPlistVectorRep ],
function( v )
local res;
res := Objectify(TypeObj(v),
[v![BDPOS],ZeroMutable(v![ELSPOS])]);
if not(IsMutable(v)) then SetFilterObj(res,IsMutable); fi;
return res;
end );
InstallMethod( IsZero, "for a plist vector", [ IsPlistVectorRep ],
function( v )
return IsZero( v![ELSPOS] );
end );
InstallMethod( Randomize, "for a mutable plist vector",
[ IsPlistVectorRep and IsMutable ],
function( v )
local bd,i;
bd := v![BDPOS];
for i in [1..Length(v![ELSPOS])] do
v![ELSPOS][i] := Random(bd);
od;
end );
InstallMethod( CopySubVector, "for two plist vectors and two lists",
[ IsPlistVectorRep, IsPlistVectorRep and IsMutable, IsList, IsList ],
function( a,b,pa,pb )
# The following should eventually go into the kernel:
b![ELSPOS]{pb} := a![ELSPOS]{pa};
end );
InstallMethod( CopySubVector, "for two plist vectors and two lists",
[ IsPlistVectorRep, IsPlistVectorRep and IsMutable and IsCheckingVector,
IsList, IsList ],
function( a,b,pa,pb )
if not(ForAll(pb,x->x <= Length(b![ELSPOS]))) then
Error("CopySubVector: Positions in pb must lie in vector b");
return;
fi;
b![ELSPOS]{pb} := a![ELSPOS]{pa};
end );
InstallMethod( CompatibleMatrix, "for a plist vector",
[ IsPlistVectorRep ],
function( v )
return NewMatrix(IsPlistMatrixRep,BaseDomain(v),Length(v),[v]);
end );
############################################################################
############################################################################
# Matrices:
############################################################################
############################################################################
############################################################################
# The basic attributes:
############################################################################
InstallMethod( BaseDomain, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
return m![BDPOS];
end );
InstallMethod( Length, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
return Length(m![ROWSPOS]);
end );
InstallMethod( RowLength, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
return m![RLPOS];
end );
InstallMethod( DimensionsMat, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
return [Length(m![ROWSPOS]),m![RLPOS]];
end );
############################################################################
# Representation preserving constructors:
############################################################################
InstallMethod( ZeroMatrix, "for two integers and a plist matrix",
[ IsInt, IsInt, IsPlistMatrixRep ],
function( rows,cols,m )
local l,t,res;
t := m![EMPOS];
l := List([1..rows],i->ZeroVector(cols,t));
res := Objectify( TypeObj(m), [m![BDPOS],t,cols,l] );
if not(IsMutable(m)) then
SetFilterObj(res,IsMutable);
fi;
return res;
end );
InstallMethod( IdentityMatrix, "for an integer and a plist matrix",
[ IsInt, IsPlistMatrixRep ],
function( rows,m )
local i,l,o,t,res;
t := m![EMPOS];
l := List([1..rows],i->ZeroVector(rows,t));
o := One(m![BDPOS]);
for i in [1..rows] do
l[i][i] := o;
od;
res := Objectify( TypeObj(m), [m![BDPOS],t,rows,l] );
if not(IsMutable(m)) then
SetFilterObj(res,IsMutable);
fi;
return res;
end );
InstallMethod( Matrix, "for a list and a plist matrix",
[ IsList, IsInt, IsPlistMatrixRep ],
function( rows,rowlen,m )
local i,l,nrrows,res,t;
t := m![EMPOS];
if Length(rows) > 0 then
if IsRowVectorObj(rows[1]) and IsPlistVectorRep(rows[1]) then
nrrows := Length(rows);
l := rows;
elif IsList(rows[1]) then
nrrows := Length(rows);
l := ListWithIdenticalEntries(Length(rows),0);
for i in [1..Length(rows)] do
l[i] := Vector(rows[i],t);
od;
else # a flat initializer:
nrrows := Length(rows)/rowlen;
l := ListWithIdenticalEntries(nrrows,0);
for i in [1..nrrows] do
l[i] := Vector(rows{[(i-1)*rowlen+1..i*rowlen]},t);
od;
fi;
else
l := [];
nrrows := 0;
fi;
res := Objectify( TypeObj(m), [m![BDPOS],t,rowlen,l] );
if not(IsMutable(m)) then
SetFilterObj(res,IsMutable);
fi;
return res;
end );
############################################################################
# A selection of list operations:
############################################################################
InstallMethod( \[\], "for a plist matrix and a positive integer",
[ IsPlistMatrixRep, IsPosInt ],
function( m, p )
return m![ROWSPOS][p];
end );
InstallMethod( \[\]\:\=,
"for a plist matrix, a positive integer, and a plist vector",
[ IsPlistMatrixRep and IsMutable, IsPosInt, IsPlistVectorRep ],
function( m, p, v )
m![ROWSPOS][p] := v;
end );
InstallMethod( \[\]\:\=,
"for a checking plist matrix, a positive integer, and a plist vector",
[ IsPlistMatrixRep and IsCheckingMatrix and IsMutable,
IsPosInt, IsPlistVectorRep ],
function( m, p, v )
if p > Length(m![ROWSPOS])+1 then
Error("\\[\\]\\:\\=: Matrices must be dense, you cannot assign here");
return;
fi;
if not(IsIdenticalObj(m![BDPOS],v![BDPOS])) then
Error("\\[\\]\\:\\=: Vector and matrix must be over the same base domain");
return;
fi;
if not(m![RLPOS] = Length(v![ELSPOS])) then
Error("\\[\\]\\:\\=: Vector does not have the right length");
return;
fi;
m![ROWSPOS][p] := v;
end );
InstallMethod( \{\}, "for a plist matrix and a list",
[ IsPlistMatrixRep, IsList ],
function( m, p )
local l;
l := m![ROWSPOS]{p};
return Objectify(TypeObj(m),[m![BDPOS],m![EMPOS],m![RLPOS],l]);
end );
InstallMethod( Add, "for a plist matrix and a plist vector",
[ IsPlistMatrixRep and IsMutable, IsPlistVectorRep ],
function( m, v )
Add(m![ROWSPOS],v);
end );
InstallMethod( Add, "for a checking plist matrix and a plist vector",
[ IsPlistMatrixRep and IsCheckingMatrix and IsMutable,
IsPlistVectorRep ],
function( m, v )
if not(IsIdenticalObj(m![BDPOS],v![BDPOS])) then
Error("Add: Vector and matrix must be over the same base domain");
return;
fi;
if not(m![RLPOS] = Length(v![ELSPOS])) then
Error("Add: Vector does not have the right length");
return;
fi;
Add(m![ROWSPOS],v);
end );
InstallMethod( Add, "for a plist matrix, a plist vector, and a pos. int",
[ IsPlistMatrixRep and IsMutable, IsPlistVectorRep, IsPosInt ],
function( m, v, p )
Add(m![ROWSPOS],v,p);
end );
InstallMethod( Add, "for a checking plist matrix, a plist vector, and a pos",
[ IsPlistMatrixRep and IsMutable and IsCheckingMatrix,
IsPlistVectorRep, IsPosInt ],
function( m, v, p )
if p > Length(m![ROWSPOS])+1 then
Error("Add: Matrices must be dense, you cannot assign here");
return;
fi;
if not(IsIdenticalObj(m![BDPOS],v![BDPOS])) then
Error("Add: Vector and matrix must be over the same base domain");
return;
fi;
if not(m![RLPOS] = Length(v![ELSPOS])) then
Error("Add: Vector does not have the right length");
return;
fi;
Add(m![ROWSPOS],v,p);
end );
InstallMethod( Remove, "for a plist matrix",
[ IsPlistMatrixRep and IsMutable ],
function( m )
Remove( m![ROWSPOS] );
end );
InstallMethod( Remove, "for a plist matrix, and a position",
[ IsPlistMatrixRep and IsMutable, IsPosInt ],
function( m, p )
Remove( m![ROWSPOS],p );
end );
InstallMethod( IsBound\[\], "for a plist matrix, and a position",
[ IsPlistMatrixRep, IsPosInt ],
function( m, p )
return p <= Length(m![ROWSPOS]);
end );
InstallMethod( Unbind\[\], "for a plist matrix, and a position",
[ IsPlistMatrixRep and IsMutable, IsPosInt ],
function( m, p )
if p <> Length(m![ROWSPOS]) then
Error("Unbind\\[\\]: Matrices must stay dense, you cannot Unbind here");
return;
fi;
Unbind( m![ROWSPOS][p] );
end );
InstallMethod( \{\}\:\=, "for a plist matrix, a list, and a plist matrix",
[ IsPlistMatrixRep and IsMutable, IsList,
IsPlistMatrixRep ],
function( m, pp, n )
m![ROWSPOS]{pp} := n![ROWSPOS];
end );
InstallMethod( \{\}\:\=,
"for a checking plist matrix, a list, and a plist matrix",
[ IsPlistMatrixRep and IsMutable and IsCheckingMatrix, IsList,
IsPlistMatrixRep ],
function( m, pp, n )
if not(ForAll(pp,x->x >= 1 and x <= Length(m![ROWSPOS])+1)) then
Error("\\{\\}\\:\\=: Positions must be in the matrix");
return;
fi;
if not(IsIdenticalObj(m![BDPOS],n![BDPOS])) then
Error("\\{\\}\\:\\=: Both matrices must be over the same base domain");
return;
fi;
if not(m![RLPOS] = n![RLPOS]) then
Error("\\{\\}\\:\\=: Row lengths are not equal");
return;
fi;
m![ROWSPOS]{pp} := n![ROWSPOS];
end );
InstallMethod( Append, "for two plist matrices",
[ IsPlistMatrixRep and IsMutable, IsPlistMatrixRep ],
function( m, n )
Append(m![ROWSPOS],n![ROWSPOS]);
end );
InstallMethod( Append, "for a checking plist matrix, and a plist matrix",
[ IsPlistMatrixRep and IsMutable and IsCheckingMatrix,
IsPlistMatrixRep ],
function( m, n )
if not(IsIdenticalObj(m![BDPOS],n![BDPOS])) then
Error("Append: Both matrices must be over the same base domain");
return;
fi;
if not(m![RLPOS] = n![RLPOS]) then
Error("Append: Row lengths are not equal");
return;
fi;
Append(m![ROWSPOS],n![ROWSPOS]);
end );
InstallMethod( ShallowCopy, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local res;
res := Objectify(TypeObj(m),[m![BDPOS],m![EMPOS],m![RLPOS],
ShallowCopy(m![ROWSPOS])]);
if not(IsMutable(m)) then
SetFilterObj(res,IsMutable);
fi;
return res;
end );
InstallMethod( PostMakeImmutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
MakeImmutable( m![ROWSPOS] );
end );
InstallMethod( ListOp, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
return List(m![ROWSPOS]);
end );
InstallMethod( ListOp, "for a plist matrix and a function",
[ IsPlistMatrixRep, IsFunction ],
function( m, f )
return List(m![ROWSPOS],f);
end );
InstallMethod( Unpack, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
return List(m![ROWSPOS],v->ShallowCopy(v![ELSPOS]));
end );
InstallMethod( PositionNonZero, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i,l,le;
l := m![ROWSPOS];
le := Length(l);
i := 1;
while i <= le and IsZero(l[i]) do i := i + 1; od;
return i;
end );
InstallMethod( PositionNonZero, "for a plist matrix, and a position",
[ IsPlistMatrixRep, IsInt ],
function( m, p )
local i,l,le;
l := m![ROWSPOS];
le := Length(l);
i := p+1;
while i <= le and IsZero(l[i]) do i := i + 1; od;
if i > le+1 then
return le+1;
else
return i;
fi;
end );
InstallMethod( PositionLastNonZero, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i,l,le;
l := m![ROWSPOS];
le := Length(l);
i := le;
while i >= 1 and IsZero(l[i]) do i := i - 1; od;
return i;
end );
InstallMethod( PositionLastNonZero, "for a plist matrix, and a position",
[ IsPlistMatrixRep, IsInt ],
function( m, p )
local i,l,le;
l := m![ROWSPOS];
le := Length(l);
i := p-1;
while i >= 1 and IsZero(l[i]) do i := i - 1; od;
if i < 0 then
return 0;
else
return i;
fi;
end );
InstallMethod( Position, "for a plist matrix, and a plist vector",
[ IsPlistMatrixRep, IsPlistVectorRep ],
function( m, v )
local i,l,le;
l := m![ROWSPOS];
le := Length(l);
i := 1;
while i <= le and l[i] <> v do i := i + 1; od;
if i > le then
return fail;
else
return i;
fi;
end );
InstallMethod( Position, "for a plist matrix, and a plist vector",
[ IsPlistMatrixRep, IsPlistVectorRep, IsInt ],
function( m, v, p )
local i,l,le;
l := m![ROWSPOS];
le := Length(l);
i := p+1;
while i <= le and l[i] <> v do i := i + 1; od;
if i > le then
return fail;
else
return i;
fi;
end );
InstallMethod( PositionSortedOp, "for a plist matrix, and a plist vector",
[ IsPlistMatrixRep, IsPlistVectorRep ],
function( m, v )
return POSITION_SORTED_LIST(m![ROWSPOS],v);
end );
InstallMethod( PositionSortedOp, "for a plist matrix, and a plist vector",
[ IsPlistMatrixRep, IsPlistVectorRep, IsFunction ],
function( m, v, f )
return POSITION_SORTED_LIST_COMP(m![ROWSPOS],v);
end );
InstallMethod( MutableCopyMat, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local l,res;
l := List(m![ROWSPOS],ShallowCopy);
res := Objectify(TypeObj(m),[m![BDPOS],m![EMPOS],m![RLPOS],l]);
if not(IsMutable(m)) then
SetFilterObj(res,IsMutable);
fi;
return res;
end);
InstallMethod( ExtractSubMatrix, "for a plist matrix, and two lists",
[ IsPlistMatrixRep, IsList, IsList ],
function( m, p, q )
local i,l;
l := m![ROWSPOS]{p};
for i in [1..Length(l)] do
l[i] := Objectify(TypeObj(l[i]),[l[i]![BDPOS],l[i]![ELSPOS]{q}]);
od;
return Objectify(TypeObj(m),[m![BDPOS],m![EMPOS],Length(q),l]);
end );
InstallMethod( CopySubMatrix, "for two plist matrices and four lists",
[ IsPlistMatrixRep, IsPlistMatrixRep and IsMutable,
IsList, IsList, IsList, IsList ],
function( m, n, srcrows, dstrows, srccols, dstcols )
local i;
# This eventually should go into the kernel without creating
# a intermediate objects:
for i in [1..Length(srcrows)] do
n![ROWSPOS][dstrows[i]]![ELSPOS]{dstcols} :=
m![ROWSPOS][srcrows[i]]![ELSPOS]{srccols};
od;
end );
InstallMethod( CopySubMatrix,
"for a plist matrix and a checking plist matrix and four lists",
[ IsPlistMatrixRep,
IsPlistMatrixRep and IsCheckingMatrix and IsMutable,
IsList, IsList, IsList, IsList ],
function( m, n, srcrows, dstrows, srccols, dstcols )
local i;
if not(ForAll(dstcols,x->x <= n![RLPOS])) then
Error("CopySubMatrix: Destination column positions out of range");
return;
fi;
if not(ForAll(dstcols,x->x <= Length(n![ROWSPOS])+1)) then
Error("CopySubMatrix: Destination row positions out of range");
return;
fi;
for i in [1..Length(srcrows)] do
n![ROWSPOS][dstrows[i]]![ELSPOS]{dstcols} :=
m![ROWSPOS][srcrows[i]]![ELSPOS]{srccols};
od;
end );
InstallMethod( MatElm, "for a plist matrix and two positions",
[ IsPlistMatrixRep, IsPosInt, IsPosInt ],
function( m, row, col )
return m![ROWSPOS][row]![ELSPOS][col];
end );
InstallMethod( SetMatElm, "for a plist matrix, two positions, and an object",
[ IsPlistMatrixRep and IsMutable, IsPosInt, IsPosInt, IsObject ],
function( m, row, col, ob )
m![ROWSPOS][row]![ELSPOS][col] := ob;
end );
InstallMethod( SetMatElm,
"for a checking plist matrix, two positions, and an object",
[ IsPlistMatrixRep and IsCheckingMatrix and IsMutable,
IsPosInt, IsPosInt, IsObject ],
function( m, row, col, ob )
if row > Length( m![ROWSPOS] ) or col > m![RLPOS] then
Error("SetMatElm: Row or column number out of bounds");
return;
fi;
if not( ob in m![BDPOS] ) then
Error("SetMatElm: Value to be assigned is not in base domain");
return;
fi;
m![ROWSPOS][row]![ELSPOS][col] := ob;
end );
############################################################################
# Printing and viewing methods:
############################################################################
InstallMethod( ViewObj, "for a plist matrix", [ IsPlistMatrixRep ],
function( m )
Print("<");
if IsCheckingMatrix(m) then Print("checking "); fi;
if not(IsMutable(m)) then Print("immutable "); fi;
Print(Length(m![ROWSPOS]),"x",m![RLPOS],"-matrix over ",m![BDPOS],">");
end );
InstallMethod( PrintObj, "for a plist matrix", [ IsPlistMatrixRep ],
function( m )
Print("NewMatrix(IsPlistMatrixRep");
if IsCheckingMatrix(m) then
Print(" and IsCheckingMatrix");
fi;
if IsFinite(m![BDPOS]) and IsField(m![BDPOS]) then
Print(",GF(",Size(m![BDPOS]),"),");
else
Print(",",String(m![BDPOS]),",");
fi;
Print(RowLength(m),",",Unpack(m),")");
end );
InstallMethod( Display, "for a plist matrix", [ IsPlistMatrixRep ],
function( m )
local i;
Print("<");
if IsCheckingMatrix(m) then Print("checking "); fi;
if not(IsMutable(m)) then Print("immutable "); fi;
Print(Length(m![ROWSPOS]),"x",m![RLPOS],"-matrix over ",m![BDPOS],":\n");
for i in [1..Length(m![ROWSPOS])] do
if i = 1 then
Print("[");
else
Print(" ");
fi;
Print(m![ROWSPOS][i]![ELSPOS],"\n");
od;
Print("]>\n");
end );
InstallMethod( String, "for plist matrix", [ IsPlistMatrixRep ],
function( m )
local st;
st := "NewMatrix(IsPlistMatrixRep";
if IsCheckingMatrix(m) then
Append(st," and IsCheckingMatrix");
fi;
Add(st,',');
if IsFinite(m![BDPOS]) and IsField(m![BDPOS]) then
Append(st,"GF(");
Append(st,String(Size(m![BDPOS])));
Append(st,"),");
else
Append(st,String(m![BDPOS]));
Append(st,",");
fi;
Append(st,String(RowLength(m)));
Add(st,',');
Append(st,String(Unpack(m)));
Add(st,')');
return st;
end );
############################################################################
# Arithmetical operations:
############################################################################
InstallMethod( \+, "for two plist matrices",
[ IsPlistMatrixRep, IsPlistMatrixRep ],
function( a, b )
local ty;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,[a![BDPOS],a![EMPOS],a![RLPOS],
SUM_LIST_LIST_DEFAULT(a![ROWSPOS],b![ROWSPOS])]);
end );
InstallMethod( \+, "for two checking plist matrices",
[ IsPlistMatrixRep and IsCheckingMatrix,
IsPlistMatrixRep and IsCheckingMatrix ],
function( a, b )
local ty;
if Length(a![ROWSPOS]) <> Length(b![ROWSPOS]) or
a![RLPOS] <> b![RLPOS] then
Error("\\+: Dimensions do not fit together");
return;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("\\+: BaseDomains are not the same");
return;
fi;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,[a![BDPOS],a![EMPOS],a![RLPOS],
SUM_LIST_LIST_DEFAULT(a![ROWSPOS],b![ROWSPOS])]);
end );
InstallMethod( \-, "for two plist matrices",
[ IsPlistMatrixRep, IsPlistMatrixRep ],
function( a, b )
local ty;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,[a![BDPOS],a![EMPOS],a![RLPOS],
DIFF_LIST_LIST_DEFAULT(a![ROWSPOS],b![ROWSPOS])]);
end );
InstallMethod( \-, "for two checking plist matrices",
[ IsPlistMatrixRep and IsCheckingMatrix,
IsPlistMatrixRep and IsCheckingMatrix ],
function( a, b )
local ty;
if Length(a![ROWSPOS]) <> Length(b![ROWSPOS]) or
a![RLPOS] <> b![RLPOS] then
Error("\\-: Dimensions do not fit together");
return;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("\\-: BaseDomains are not the same");
return;
fi;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
return Objectify(ty,[a![BDPOS],a![EMPOS],a![RLPOS],
DIFF_LIST_LIST_DEFAULT(a![ROWSPOS],b![ROWSPOS])]);
end );
InstallMethod( \*, "for two plist matrices",
[ IsPlistMatrixRep, IsPlistMatrixRep ],
function( a, b )
# Here we do full checking since it is rather cheap!
local i,j,l,ty,v,w;
if not(IsMutable(a)) and IsMutable(b) then
ty := TypeObj(b);
else
ty := TypeObj(a);
fi;
if not(a![RLPOS] = Length(b![ROWSPOS])) then
Error("\\*: Matrices do not fit together");
return;
fi;
if not(IsIdenticalObj(a![BDPOS],b![BDPOS])) then
Error("\\*: Matrices not over same base domain");
return;
fi;
l := ListWithIdenticalEntries(Length(a![ROWSPOS]),0);
for i in [1..Length(l)] do
if b![RLPOS] = 0 then
l[i] := b![EMPOS];
else
v := a![ROWSPOS][i];
w := ZeroVector(b![RLPOS],b![EMPOS]);
for j in [1..a![RLPOS]] do
AddRowVector(w,b![ROWSPOS][j],v[j]);
od;
l[i] := w;
fi;
od;
if not(IsMutable(a)) and not(IsMutable(b)) then
MakeImmutable(l);
fi;
return Objectify( ty, [a![BDPOS],a![EMPOS],b![RLPOS],l] );
end );
InstallMethod( \=, "for two plist matrices",
[ IsPlistMatrixRep, IsPlistMatrixRep ],
function( a, b )
return EQ_LIST_LIST_DEFAULT(a![ROWSPOS],b![ROWSPOS]);
end );
InstallMethod( \<, "for two plist matrices",
[ IsPlistMatrixRep, IsPlistMatrixRep ],
function( a, b )
return LT_LIST_LIST_DEFAULT(a![ROWSPOS],b![ROWSPOS]);
end );
InstallMethod( AdditiveInverseSameMutability, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local l;
l := List(m![ROWSPOS],AdditiveInverseSameMutability);
if not(IsMutable(m)) then
MakeImmutable(l);
fi;
return Objectify( TypeObj(m), [m![BDPOS],m![EMPOS],m![RLPOS],l] );
end );
InstallMethod( AdditiveInverseImmutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local l,res;
l := List(m![ROWSPOS],AdditiveInverseImmutable);
res := Objectify( TypeObj(m), [m![BDPOS],m![EMPOS],m![RLPOS],l] );
MakeImmutable(res);
return res;
end );
InstallMethod( AdditiveInverseMutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local l,res;
l := List(m![ROWSPOS],AdditiveInverseMutable);
res := Objectify( TypeObj(m), [m![BDPOS],m![EMPOS],m![RLPOS],l] );
if not(IsMutable(m)) then
SetFilterObj(res,IsMutable);
fi;
return res;
end );
InstallMethod( ZeroSameMutability, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local l;
l := List(m![ROWSPOS],ZeroSameMutability);
if not(IsMutable(m)) then
MakeImmutable(l);
fi;
return Objectify( TypeObj(m), [m![BDPOS],m![EMPOS],m![RLPOS],l] );
end );
InstallMethod( ZeroImmutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local l,res;
l := List(m![ROWSPOS],ZeroImmutable);
res := Objectify( TypeObj(m), [m![BDPOS],m![EMPOS],m![RLPOS],l] );
MakeImmutable(res);
return res;
end );
InstallMethod( ZeroMutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local l,res;
l := List(m![ROWSPOS],ZeroMutable);
res := Objectify( TypeObj(m), [m![BDPOS],m![EMPOS],m![RLPOS],l] );
if not(IsMutable(m)) then
SetFilterObj(res,IsMutable);
fi;
return res;
end );
InstallMethod( IsZero, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i;
for i in [1..Length(m![ROWSPOS])] do
if not(IsZero(m![ROWSPOS][i])) then
return false;
fi;
od;
return true;
end );
InstallMethod( IsOne, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i,j,n;
if Length(m![ROWSPOS]) <> m![RLPOS] then
#Error("IsOne: Matrix must be square");
return false;
fi;
n := m![RLPOS];
for i in [1..n] do
if not(IsOne(m![ROWSPOS][i]![ELSPOS][i])) then return false; fi;
for j in [1..i-1] do
if not(IsZero(m![ROWSPOS][i]![ELSPOS][j])) then return false; fi;
od;
for j in [i+1..n] do
if not(IsZero(m![ROWSPOS][i]![ELSPOS][j])) then return false; fi;
od;
od;
return true;
end );
InstallMethod( OneSameMutability, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local o;
if m![RLPOS] <> Length(m![ROWSPOS]) then
#Error("OneSameMutability: Matrix is not square");
#return;
return fail;
fi;
o := IdentityMatrix(m![RLPOS],m);
if not(IsMutable(m)) then
MakeImmutable(o);
fi;
return o;
end );
InstallMethod( OneMutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
if m![RLPOS] <> Length(m![ROWSPOS]) then
#Error("OneMutable: Matrix is not square");
#return;
return fail;
fi;
return IdentityMatrix(m![RLPOS],m);
end );
InstallMethod( OneImmutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local o;
if m![RLPOS] <> Length(m![ROWSPOS]) then
#Error("OneImmutable: Matrix is not square");
#return;
return fail;
fi;
o := IdentityMatrix(m![RLPOS],m);
MakeImmutable(o);
return o;
end );
# For the moment we delegate to the fast kernel arithmetic for plain
# lists of plain lists:
InstallMethod( InverseMutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local n;
if m![RLPOS] <> Length(m![ROWSPOS]) then
#Error("InverseMutable: Matrix is not square");
#return;
return fail;
fi;
# Make a plain list of lists:
n := List(m![ROWSPOS],x->x![ELSPOS]);
n := InverseMutable(n); # Invert!
if n = fail then return fail; fi;
return Matrix(n,Length(n),m);
end );
InstallMethod( InverseImmutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local n;
if m![RLPOS] <> Length(m![ROWSPOS]) then
#Error("InverseMutable: Matrix is not square");
#return;
return fail;
fi;
# Make a plain list of lists:
n := List(m![ROWSPOS],x->x![ELSPOS]);
n := InverseMutable(n); # Invert!
if n = fail then return fail; fi;
n := Matrix(n,Length(n),m);
MakeImmutable(n);
return n;
end );
InstallMethod( InverseSameMutability, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local n;
if m![RLPOS] <> Length(m![ROWSPOS]) then
#Error("InverseMutable: Matrix is not square");
#return;
return fail;
fi;
# Make a plain list of lists:
n := List(m![ROWSPOS],x->x![ELSPOS]);
n := InverseMutable(n); # Invert!
if n = fail then return fail; fi;
n := Matrix(n,Length(n),m);
if not(IsMutable(m)) then
MakeImmutable(n);
fi;
return n;
end );
InstallMethod( RankMat, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local n;
n := List(m![ROWSPOS],x->x![ELSPOS]);
return RankMat(n);
end);
InstallMethod( Randomize, "for a mutable plist matrix",
[ IsPlistMatrixRep and IsMutable ],
function( m )
local v;
for v in m![ROWSPOS] do
Randomize(v);
od;
end );
InstallMethod( IsDiagonalMat, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i,j,l,n;
if m![RLPOS] <> Length(m![ROWSPOS]) then
Error("IsDiagonalMat: Matrix not square");
return;
fi;
n := m![RLPOS];
for i in [1..n] do
l := m![ROWSPOS][i]![ELSPOS];
for j in [1..i-1] do
if not(IsZero(l[j])) then
return false;
fi;
od;
for j in [i+1..n] do
if not(IsZero(l[j])) then
return false;
fi;
od;
od;
return true;
end );
InstallMethod( IsLowerTriangularMat, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i,j,l,n;
if m![RLPOS] <> Length(m![ROWSPOS]) then
Error("IsLowerTriangularMat: Matrix not square");
return;
fi;
n := m![RLPOS];
for i in [1..n] do
l := m![ROWSPOS][i]![ELSPOS];
for j in [i+1..n] do
if not(IsZero(l[j])) then
return false;
fi;
od;
od;
return true;
end );
InstallMethod( IsUpperTriangularMat, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i,j,l,n;
if m![RLPOS] <> Length(m![ROWSPOS]) then
Error("IsUpperTriangularMat: Matrix not square");
return;
fi;
n := m![RLPOS];
for i in [1..n] do
l := m![ROWSPOS][i]![ELSPOS];
for j in [1..i-1] do
if not(IsZero(l[j])) then
return false;
fi;
od;
od;
return true;
end );
InstallMethod( TransposedMatMutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local i,n,v;
n := ListWithIdenticalEntries(m![RLPOS],0);
for i in [1..m![RLPOS]] do
v := Vector(List(m![ROWSPOS],v->v![ELSPOS][i]),m![EMPOS]);
n[i] := v;
od;
return Objectify(TypeObj(m),[m![BDPOS],m![EMPOS],Length(m![ROWSPOS]),n]);
end );
InstallMethod( TransposedMatImmutable, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
local n;
n := TransposedMatMutable(m);
MakeImmutable(n);
return n;
end );
InstallMethod( \*, "for a plist vector and a plist matrix",
[ IsPlistVectorRep, IsPlistMatrixRep ],
function( v, m )
local i,res,s;
res := ZeroVector(m![RLPOS],m![EMPOS]);
for i in [1..Length(v![ELSPOS])] do
s := v![ELSPOS][i];
if not(IsZero(s)) then
AddRowVector(res,m![ROWSPOS][i],v![ELSPOS][i]);
fi;
od;
if not(IsMutable(v)) and not(IsMutable(m)) then
MakeImmutable(res);
fi;
return res;
end );
InstallMethod( Unfold, "for a plist matrix",
[ IsPlistMatrixRep, IsPlistVectorRep ],
function( m, w )
local v,i,l;
if Length(m![ROWSPOS]) = 0 then
return ShallowCopy(m![EMPOS]);
else
l := m![RLPOS];
v := ZeroVector(Length(m![ROWSPOS])*l,m![EMPOS]);
for i in [1..Length(m![ROWSPOS])] do
CopySubVector( m![ROWSPOS][i], v, [1..l], [(i-1)*l+1..i*l] );
od;
return v;
fi;
end );
InstallMethod( Fold, "for a plist vector, a positive int, and a plist matrix",
[ IsPlistVectorRep, IsPosInt, IsPlistMatrixRep ],
function( v, rl, t )
local rows,i,tt,m;
m := Matrix([],rl,t);
tt := ZeroVector(rl,v);
for i in [1..Length(v![ELSPOS])/rl] do
Add(m![ROWSPOS],v{[(i-1)*rl+1..i*rl]});
od;
return m;
end );
#InstallMethod( \^, "for a plist vector and an integer",
# [ IsPlistMatrixRep, IsInt ],
# function( m, i )
# local mi;
# if m![RLPOS] <> Length(m![ROWSPOS]) then
# #Error("\\^: Matrix must be square");
# #return;
# return fail;
# fi;
# if i = 0 then return OneSameMutability(m);
# elif i > 0 then return POW_OBJ_INT(m,i);
# else
# mi := InverseSameMutability(m);
# if mi = fail then return fail; fi;
# return POW_OBJ_INT( mi, -i );
# fi;
# end );
InstallMethod( ConstructingFilter, "for a checking plist vector",
[ IsPlistVectorRep and IsCheckingVector ],
function( v )
return IsPlistVectorRep and IsCheckingVector;
end );
InstallMethod( ConstructingFilter, "for a checking plist matrix",
[ IsPlistMatrixRep and IsCheckingMatrix ],
function( m )
return IsPlistMatrixRep and IsCheckingMatrix;
end );
InstallMethod( ConstructingFilter, "for a plist vector",
[ IsPlistVectorRep ],
function( v )
return IsPlistVectorRep;
end );
InstallMethod( ConstructingFilter, "for a plist matrix",
[ IsPlistMatrixRep ],
function( m )
return IsPlistMatrixRep;
end );
InstallMethod( ChangedBaseDomain, "for a plist vector, and a domain",
[ IsPlistVectorRep, IsRing ],
function( v, r )
return NewRowVector( IsPlistVectorRep, r, v![ELSPOS] );
end );
InstallMethod( ChangedBaseDomain, "for a checking plist vector, and a domain",
[ IsPlistVectorRep and IsCheckingVector, IsRing ],
function( v, r )
return NewRowVector(IsPlistVectorRep and IsCheckingVector, r, v![ELSPOS]);
end );
InstallMethod( ChangedBaseDomain, "for a plist matrix, and a domain",
[ IsPlistMatrixRep, IsRing ],
function( m, r )
return NewMatrix(IsPlistMatrixRep, r, RowLength(m),
List(m![ROWSPOS], x-> x![ELSPOS]));
end );
InstallMethod( ChangedBaseDomain, "for a checking plist matrix, and a domain",
[ IsPlistMatrixRep and IsCheckingMatrix, IsRing ],
function( m, r )
return NewMatrix(IsPlistMatrixRep and IsCheckingMatrix, r, RowLength(m),
List(m![ROWSPOS], x-> x![ELSPOS]));
end );
InstallMethod( CompatibleVector, "for a plist matrix",
[ IsPlistMatrixRep ],
function( v )
return NewZeroVector(IsPlistVectorRep,BaseDomain(v),Length(v));
end );
InstallMethod( NewCompanionMatrix,
"for IsPlistMatrixRep, a polynomial and a ring",
[ IsPlistMatrixRep, IsUnivariatePolynomial, IsRing ],
function( ty, po, bd )
local i,l,ll,n,one;
one := One(bd);
l := CoefficientsOfUnivariatePolynomial(po);
n := Length(l)-1;
if not(IsOne(l[n+1])) then
Error("CompanionMatrix: polynomial is not monic");
return fail;
fi;
ll := NewMatrix(ty,bd,n,[]);
l := Vector(-l{[1..n]},CompatibleVector(ll));
for i in [1..n-1] do
Add(ll,ZeroMutable(l));
ll[i][i+1] := one;
od;
Add(ll,l);
return ll;
end );
InstallMethod( NewCompanionMatrix,
"for IsPlistMatrixRep and IsCheckingMatrix, a polynomial and a ring",
[ IsPlistMatrixRep and IsCheckingMatrix, IsUnivariatePolynomial, IsRing ],
function( ty, po, bd )
local i,l,ll,n,one;
one := One(bd);
l := CoefficientsOfUnivariatePolynomial(po);
n := Length(l)-1;
if not(IsOne(l[n+1])) then
Error("CompanionMatrix: polynomial is not monic");
return fail;
fi;
ll := NewMatrix(ty,bd,n,[]);
l := Vector(-l{[1..n]},CompatibleVector(ll));
for i in [1..n-1] do
Add(ll,ZeroMutable(l));
ll[i][i+1] := one;
od;
Add(ll,l);
return ll;
end );
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