MODULE CubeInt;
IMPORT SYSTEM, NbrInt, ArrayXdBytes, ArrayXd := ArrayXdInt, DataErrors, DataIO;
CONST
VERSION* = 1;
TYPE
Value* = ArrayXd.Value; Index* = LONGINT; Array* = ArrayXd.Array; Map* = ArrayXd.Map; ArrayC* = ArrayXd.Array3;
Cube* = OBJECT (Array)
VAR lenx-, leny-, lenz-: LONGINT;
ox-, oy-, oz-: LONGINT;
Get-: PROCEDURE {DELEGATE} ( x, y, z: Index ): Value;
PROCEDURE AlikeX( ): ArrayXdBytes.Array;
VAR copy: Cube;
BEGIN
NEW( copy, origin[0], len[0], origin[1], len[1], origin[2], len[2] ); RETURN copy;
END AlikeX;
PROCEDURE NewRangeX( neworigin, newlen: ArrayXdBytes.IndexArray; copydata: BOOLEAN );
BEGIN
IF LEN( newlen ) # 3 THEN HALT( 1001 ) END;
NewRangeX^( neworigin, newlen, copydata );
END NewRangeX;
PROCEDURE ValidateCache;
BEGIN
ValidateCache^;
IF dim # 3 THEN HALT( 100 ) END;
lenx := len[0]; leny := len[1]; lenz := len[2]; ox := origin[0]; oy := origin[1]; oz := origin[2];
END ValidateCache;
PROCEDURE SetBoundaryCondition*( c: SHORTINT );
BEGIN
SetBoundaryCondition^( c );
CASE c OF
ArrayXd.StrictBoundaryC:
Get := Get3;
| ArrayXd.AbsorbingBoundaryC:
Get := Get3BAbsorbing;
| ArrayXd.PeriodicBoundaryC:
Get := Get3BPeriodic;
| ArrayXd.SymmetricOnBoundaryC:
Get := Get3BSymmetricOnB
| ArrayXd.SymmetricOffBoundaryC:
Get := Get3BSymmetricOffB
| ArrayXd.AntisymmetricOnBoundaryC:
Get := Get3BAntisymmetricOnB
| ArrayXd.AntisymmetricOffBoundaryC:
Get := Get3BAntisymmetricOffB
END;
END SetBoundaryCondition;
PROCEDURE & New*( ox, w, oy, h, oz, d: LONGINT );
BEGIN
NewXdB( ArrayXdBytes.Array3( ox, oy, oz ), ArrayXdBytes.Array3( w, h, d ) );
END New;
PROCEDURE Alike*( ): Cube;
VAR copy: ArrayXdBytes.Array;
BEGIN
copy := AlikeX(); RETURN copy( Cube );
END Alike;
PROCEDURE NewRange*( ox, w, oy, h, oz, d: LONGINT; copydata: BOOLEAN );
BEGIN
IF (w # len[0]) OR (h # len[1]) OR (d # len[2]) OR (ox # origin[0]) OR (oy # origin[1]) OR (oz # origin[2]) THEN
NewRangeX^( ArrayXdBytes.Array3( ox, oy, oz ), ArrayXdBytes.Array3( w, h, d ), copydata )
END;
END NewRange;
PROCEDURE Copy*( ): Cube;
VAR res: ArrayXdBytes.Array;
BEGIN
res := CopyX(); RETURN res( Cube );
END Copy;
PROCEDURE Set*( x, y, z: Index; v: Value );
BEGIN
ArrayXdBytes.Set3( SELF, x, y, z, v );
END Set;
PROCEDURE CopyToVec*( dest: Array; dim: Index; srcx, srcy, srcz, destx, len: Index );
VAR slen: ArrayXdBytes.IndexArray;
BEGIN
IF (dest.dim # 1) THEN HALT( 1003 ) END;
slen := ArrayXdBytes.Index3( 1, 1, 1 ); slen[dim] := len;
CopyToArray( dest, ArrayXdBytes.Index3( srcx, srcy, srcz ), slen, ArrayXdBytes.Index1( destx ),
ArrayXdBytes.Index1( len ) );
END CopyToVec;
PROCEDURE CopyToMtx*( dest: Array; dimx, dimy: Index; srcx, srcy, srcz, destx, desty, lenx, leny: Index );
VAR slen: ArrayXdBytes.IndexArray;
BEGIN
IF (dest.dim # 2) OR (dimx >= dimy) THEN HALT( 1005 ) END;
slen := ArrayXdBytes.Index3( 1, 1, 1 ); slen[dimx] := lenx; slen[dimy] := leny;
CopyToArray( dest, ArrayXdBytes.Index3( srcx, srcy, srcz ), slen, ArrayXdBytes.Index2( destx, desty ),
ArrayXdBytes.Index2( lenx, leny ) );
END CopyToMtx;
PROCEDURE CopyToCube*( dest: Array; srcx, srcy, srcz, destx, desty, destz, lenx, leny, lenz: Index );
VAR slen: ArrayXdBytes.IndexArray;
BEGIN
IF (dest.dim # 3) THEN HALT( 1005 ) END;
slen := ArrayXdBytes.Index3( lenx, leny, lenz );
CopyToArray( dest, ArrayXdBytes.Index3( srcx, srcy, srcz ), slen, ArrayXdBytes.Index3( destx, desty, destz ), slen );
END CopyToCube;
PROCEDURE CopyToHCube*( dest: Array; dimx, dimy, dimz: Index;
srcx, srcy, srcz, destx, desty, destz, destt, lenx, leny, lenz: Index );
VAR slen: ArrayXdBytes.IndexArray;
BEGIN
IF (dest.dim # 4) OR (dimx >= dimy) OR (dimy >= dimz) THEN HALT( 1005 ) END;
slen := ArrayXdBytes.Index4( 1, 1, 1, 1 ); slen[dimx] := lenx; slen[dimy] := leny; slen[dimz] := lenz;
CopyToArray( dest, ArrayXdBytes.Index3( srcx, srcy, srcz ), ArrayXdBytes.Index3( lenx, leny, lenz ),
ArrayXdBytes.Index4( destx, desty, destz, destt ), slen );
END CopyToHCube;
PROCEDURE CopyTo1dArray*( VAR dest: ARRAY OF Value; sx, sy, sz, slenx, sleny, slenz: Index; dpos, dlen: LONGINT );
VAR destm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
destm :=
ArrayXdBytes.MakeMemoryStructure( 1, ArrayXdBytes.Index1( 0 ), ArrayXdBytes.Index1( LEN( dest ) ), SYSTEM.SIZEOF( Value ),
SYSTEM.ADR( dest[0] ) );
ArrayXd.CopyArrayToArrayPartB( SELF, destm, bc, ArrayXdBytes.Index3( sx, sy, sz ),
ArrayXdBytes.Index3( slenx, sleny, slenz ), ArrayXdBytes.Index1( dpos ),
ArrayXdBytes.Index1( dlen ) );
END CopyTo1dArray;
PROCEDURE CopyTo2dArray*( VAR dest: ARRAY OF ARRAY OF Value; sx, sy, sz, slenx, sleny, slenz: Index;
dposx, dposy, dlenx, dleny: LONGINT );
VAR destm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
destm :=
ArrayXdBytes.MakeMemoryStructure( 2, ArrayXdBytes.Index2( 0, 0 ), ArrayXdBytes.Index2( LEN( dest, 1 ), LEN( dest, 0 ) ),
SYSTEM.SIZEOF( Value ), SYSTEM.ADR( dest[0, 0] ) );
ArrayXd.CopyArrayToArrayPartB( SELF, destm, bc, ArrayXdBytes.Index3( sx, sy, sz ),
ArrayXdBytes.Index3( slenx, sleny, slenz ), ArrayXdBytes.Index2( dposx, dposy ),
ArrayXdBytes.Index2( dlenx, dleny ) );
END CopyTo2dArray;
PROCEDURE CopyTo3dArray*( VAR dest: ARRAY OF ARRAY OF ARRAY OF Value; sx, sy, sz, slenx, sleny, slenz: Index;
dposx, dposy, dposz, dlenx, dleny, dlenz: LONGINT );
VAR destm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
destm :=
ArrayXdBytes.MakeMemoryStructure( 3, ArrayXdBytes.Index3( 0, 0, 0 ),
ArrayXdBytes.Index3( LEN( dest, 2 ), LEN( dest, 1 ), LEN( dest, 0 ) ), SYSTEM.SIZEOF( Value ),
SYSTEM.ADR( dest[0, 0, 0] ) );
ArrayXd.CopyArrayToArrayPartB( SELF, destm, bc, ArrayXdBytes.Index3( sx, sy, sz ),
ArrayXdBytes.Index3( slenx, sleny, slenz ),
ArrayXdBytes.Index3( dposx, dposy, dposz ),
ArrayXdBytes.Index3( dlenx, dleny, dlenz ) );
END CopyTo3dArray;
PROCEDURE CopyTo4dArray*( VAR dest: ARRAY OF ARRAY OF ARRAY OF ARRAY OF Value; sx, sy, sz, slenx, sleny, slenz: Index;
dposx, dposy, dposz, dpost, dlenx, dleny, dlenz, dlent: LONGINT );
VAR destm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
destm :=
ArrayXdBytes.MakeMemoryStructure( 4, ArrayXdBytes.Index4( 0, 0, 0, 0 ),
ArrayXdBytes.Index4( LEN( dest, 3 ), LEN( dest, 2 ), LEN( dest, 1 ), LEN( dest, 0 ) ), SYSTEM.SIZEOF( Value ),
SYSTEM.ADR( dest[0, 0, 0, 0] ) );
ArrayXd.CopyArrayToArrayPartB( SELF, destm, bc, ArrayXdBytes.Index3( sx, sy, sz ),
ArrayXdBytes.Index3( slenx, sleny, slenz ),
ArrayXdBytes.Index4( dposx, dposy, dposz, dpost ),
ArrayXdBytes.Index4( dlenx, dleny, dlenz, dlent ) );
END CopyTo4dArray;
PROCEDURE CopyFrom1dArray*( VAR src: ARRAY OF Value; spos, slen: Index; dx, dy, dz, dlenx, dleny, dlenz: Index );
VAR srcm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
srcm :=
ArrayXdBytes.MakeMemoryStructure( 1, ArrayXdBytes.Index1( 0 ), ArrayXdBytes.Index1( LEN( src ) ), SYSTEM.SIZEOF( Value ),
SYSTEM.ADR( src[0] ) );
ArrayXdBytes.CopyArrayPartToArrayPart( srcm, SELF, ArrayXdBytes.Index1( spos ), ArrayXdBytes.Index1( slen ),
ArrayXdBytes.Index3( dx, dy, dz ),
ArrayXdBytes.Index3( dlenx, dleny, dlenz ) );
END CopyFrom1dArray;
PROCEDURE CopyFrom2dArray*( VAR src: ARRAY OF ARRAY OF Value; sposx, spoxy, slenx, sleny: Index;
dx, dy, dz, dlenx, dleny, dlenz: Index );
VAR srcm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
srcm :=
ArrayXdBytes.MakeMemoryStructure( 2, ArrayXdBytes.Index2( 0, 0 ), ArrayXdBytes.Index2( LEN( src, 1 ), LEN( src, 0 ) ),
SYSTEM.SIZEOF( Value ), SYSTEM.ADR( src[0, 0] ) );
ArrayXdBytes.CopyArrayPartToArrayPart( srcm, SELF, ArrayXdBytes.Index2( sposx, spoxy ),
ArrayXdBytes.Index2( slenx, sleny ), ArrayXdBytes.Index3( dx, dy, dz ),
ArrayXdBytes.Index3( dlenx, dleny, dlenz ) );
END CopyFrom2dArray;
PROCEDURE CopyFrom3dArray*( VAR src: ARRAY OF ARRAY OF ARRAY OF Value; sposx, spoxy, sposz, slenx, sleny, slenz: Index;
dx, dy, dz, dlenx, dleny, dlenz: Index );
VAR srcm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
srcm :=
ArrayXdBytes.MakeMemoryStructure( 3, ArrayXdBytes.Index3( 0, 0, 0 ),
ArrayXdBytes.Index3( LEN( src, 2 ), LEN( src, 1 ), LEN( src, 0 ) ), SYSTEM.SIZEOF( Value ),
SYSTEM.ADR( src[0, 0, 0] ) );
ArrayXdBytes.CopyArrayPartToArrayPart( srcm, SELF, ArrayXdBytes.Index3( sposx, spoxy, sposz ),
ArrayXdBytes.Index3( slenx, sleny, slenz ),
ArrayXdBytes.Index3( dx, dy, dz ),
ArrayXdBytes.Index3( dlenx, dleny, dlenz ) );
END CopyFrom3dArray;
PROCEDURE CopyFrom4dArray*( VAR src: ARRAY OF ARRAY OF ARRAY OF ARRAY OF Value;
sposx, spoxy, sposz, spost, slenx, sleny, slenz, slent: Index;
dx, dy, dz, dlenx, dleny, dlenz: Index );
VAR srcm: ArrayXdBytes.ArrayMemoryStructure;
BEGIN
srcm :=
ArrayXdBytes.MakeMemoryStructure( 4, ArrayXdBytes.Index4( 0, 0, 0, 0 ),
ArrayXdBytes.Index4( LEN( src, 3 ), LEN( src, 2 ), LEN( src, 1 ), LEN( src, 0 ) ), SYSTEM.SIZEOF( Value ),
SYSTEM.ADR( src[0, 0, 0, 0] ) );
ArrayXdBytes.CopyArrayPartToArrayPart( srcm, SELF, ArrayXdBytes.Index4( sposx, spoxy, sposz, spost ),
ArrayXdBytes.Index4( slenx, sleny, slenz, slent ),
ArrayXdBytes.Index3( dx, dy, dz ),
ArrayXdBytes.Index3( dlenx, dleny, dlenz ) );
END CopyFrom4dArray;
END Cube;
PROCEDURE ":="*( VAR l: Cube; VAR r: ARRAY OF ARRAY OF ARRAY OF Value );
BEGIN
IF l = NIL THEN NEW( l, 0, LEN( r, 2 ), 0, LEN( r, 1 ), 0, LEN( r, 0 ) ); ELSE l.NewRange( 0, LEN( r, 2 ), 0, LEN( r, 1 ), 0, LEN( r, 0 ), FALSE ); END;
ArrayXdBytes.CopyMemoryToArrayPart( SYSTEM.ADR( r[0, 0, 0] ), l, LEN( r, 0 ) * LEN( r, 1 ) * LEN( r, 2 ), NIL , NIL );
END ":=";
PROCEDURE ":="*( VAR l: Cube; r: Value );
BEGIN
IF l # NIL THEN ArrayXd.Fill( l, r ); END;
END ":=";
PROCEDURE "+"*( l, r: Cube ): Cube;
VAR res: Cube;
BEGIN
res := l.Alike(); ArrayXd.Add( l, r, res ); RETURN res;
END "+";
PROCEDURE "-"*( l, r: Cube ): Cube;
VAR res: Cube;
BEGIN
res := l.Alike(); ArrayXd.Sub( l, r, res ); RETURN res;
END "-";
PROCEDURE "+"*( l: Cube; r: Value ): Cube;
VAR res: Cube;
BEGIN
res := l.Alike(); ArrayXd.AddAV( l, r, res ); RETURN res;
END "+";
PROCEDURE "+"*( l: Value; r: Cube ): Cube;
BEGIN
RETURN r + l
END "+";
PROCEDURE "-"*( l: Cube; r: Value ): Cube;
VAR res: Cube;
BEGIN
res := l.Alike(); ArrayXd.SubAV( l, r, res ); RETURN res;
END "-";
PROCEDURE "-"*( l: Value; r: Cube ): Cube;
VAR res: Cube;
BEGIN
res := r.Alike(); ArrayXd.SubVA( l, r, res ); RETURN res;
END "-";
PROCEDURE "-"*( l: Cube ): Cube;
BEGIN
RETURN 0 - l;
END "-";
PROCEDURE "*"*( l: Cube; r: Value ): Cube;
VAR res: Cube;
BEGIN
res := l.Alike(); ArrayXd.MulAV( l, r, res ); RETURN res;
END "*";
PROCEDURE "*"*( l: Value; r: Cube ): Cube;
BEGIN
RETURN r * l;
END "*";
PROCEDURE "DIV"*( l: Cube; r: Value ): Cube;
VAR res: Cube;
BEGIN
res := l.Alike(); ArrayXd.DivAV( l, r, res ); RETURN res;
END "DIV";
PROCEDURE "DIV"*( l: Value; r: Cube ): Cube;
VAR res: Cube;
BEGIN
res := r.Alike(); ArrayXd.DivVA( l, r, res ); RETURN res;
END "DIV";
PROCEDURE "MOD"*( l: Cube; r: Value ): Cube;
VAR res: Cube;
BEGIN
res := l.Alike(); ArrayXd.ModAV( l, r, res ); RETURN res;
END "MOD";
PROCEDURE "MOD"*( l: Value; r: Cube ): Cube;
VAR res: Cube;
BEGIN
res := r.Alike(); ArrayXd.ModVA( l, r, res ); RETURN res;
END "MOD";
PROCEDURE LoadCube( R: DataIO.Reader; VAR obj: OBJECT );
VAR a: Cube; version: SHORTINT; ver: NbrInt.Integer;
BEGIN
R.RawSInt( version );
IF version = -1 THEN
obj := NIL
ELSIF version = VERSION THEN NEW( a, 0, 0, 0, 0, 0, 0 ); a.Read( R ); obj := a
ELSE ver := version; DataErrors.IntError( ver, "Alien version number encountered." ); HALT( 1000 )
END
END LoadCube;
PROCEDURE StoreCube( W: DataIO.Writer; obj: OBJECT );
VAR a: Cube;
BEGIN
IF obj = NIL THEN W.RawSInt( -1 ) ELSE W.RawSInt( VERSION ); a := obj( Cube ); a.Write( W ) END
END StoreCube;
PROCEDURE Register;
VAR a: Cube;
BEGIN
NEW( a, 0, 0, 0, 0, 0, 0 ); DataIO.PlugIn( a, LoadCube, StoreCube )
END Register;
PROCEDURE Load*( R: DataIO.Reader; VAR obj: Cube );
VAR ptr: OBJECT;
BEGIN
R.Object( ptr ); obj := ptr( Cube )
END Load;
PROCEDURE Store*( W: DataIO.Writer; obj: Cube );
BEGIN
W.Object( obj )
END Store;
BEGIN
Register
END CubeInt.