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foam-extend4.1-coherent-io/applications/utilities/postProcessing/dataConversion/foamToTecplot360/tecio/examples/comtest/comtest.f90

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Fortran

!
! Complex example FORTRAN program to write a
! binary data file for Tecplot. This example
! does the following:
!
! 1. Open a data file called "field.plt."
! 2. Open a data file called "line.plt."
! 3. Assign values for X, Y and P. These will be used
! in both the ordered and FE data files.
! 4. Write out an ordered zone dimensioned 4 x 5 to "field.plt."
! 5. Assign values for XL and YL arrays.
! 6. Write out data for line plot to "line.plt." Make the data
! use double precision.
! 7. Write out a finite element zone to "field.plt."
! 8. Write out a text record to "field.plt."
! 9. Write out a geometry (circle) record to "field.plt."
! 10. Close file 1.
! 11. Close file 2.
!
Program ComplexTest
Include "tecio.f90"
REAL*4 X(4,5), Y(4,5), P(4,5)
REAL*8 XL(50), YL(50)
REAL*4 XLDummy(1), YLDummy(1)
EQUIVALENCE (XLDummy(1), XL(1))
EQUIVALENCE (YLDummy(1), YL(1))
REAL*8 SolTime
INTEGER*4 Debug,I,J,K,L,III,NPts,NElm,DIsDouble,VIsDouble,FileType
INTEGER*4 IMax,JMax,KMax,NM(4,12)
INTEGER*4 StrandID,ParentZn
INTEGER*4 SharingZone(3)
REAL*8 XP, YP, ZP, FH, LineSpacing, PatternLength
REAL*8 BoxMargin, BoxLineThickness, TextAngle
INTEGER*4 AttachToZone, Zone, Scope, PositionCoordSys
INTEGER*4 Clipping
INTEGER*4 FontType, HeightUnits, Anchor, BoxType
INTEGER*4 IsFilled, GeomType, LinePattern, NumEllipsePts
INTEGER*4 BoxColor, BoxFillColor, TextColor, Color, FillColor
INTEGER*4 ArrowheadStyle, ArrowheadAttachment, NumSegments
INTEGER*4 NumSegPts(1)
REAL*8 LineThickness, ArrowheadSize, ArrowheadAngle
REAL*4 XGeomData(1), YGeomData(1), ZGeomData(1)
CHARACTER*1 NULCHAR
INTEGER*4 Zero
POINTER (NullPtr,Null)
INTEGER*4 Null(*)
Debug = 2
VIsDouble = 0
FileType = 0
DIsDouble = 0
NULCHAR = CHAR(0)
Zero = 0
NullPtr = 0
!
! Open field.plt and write the header information.
!
I = TECINI112('DATASET WITH 1 ORDERED ZONE, '// &
'1 QUAD ZONE OVER 2 TIME STEPS'//NULCHAR, &
'X Y P'//NULCHAR, &
'field.plt'//NULCHAR, &
'.'//NULCHAR, &
FileType, &
Debug, &
VIsDouble)
!
! Open line.plt and write the header information.
!
VIsDouble = 1
I = TECINI112('DATASET WITH ONE I-ORDERED ZONE'//NULCHAR, &
'X Y'//NULCHAR, &
'line.plt'//NULCHAR, &
'.'//NULCHAR, &
FileType, &
Debug, &
VIsDouble)
!
! Calculate values for the field variables.
!
Do 10 J = 1,5
Do 10 I = 1,4
X(I,J) = I
Y(I,J) = J
P(I,J) = I*J
10 Continue
!
! Make sure writing to file #1.
!
III = 1
I = TECFIL112(III)
!
! Write the zone header information for the ordered zone.
!
IMax = 4
JMax = 5
KMax = 1
SolTime = 10.0
StrandID = 1
ParentZn = 0
I = TECZNE112('Ordered Zone 1'//NULCHAR, &
0, & ! ZONETYPE
IMax, &
JMax, &
KMax, &
0, &
0, &
0, &
SolTime, &
StrandID, &
ParentZn, &
1, & ! ISBLOCK
0, & ! NumFaceConnections
0, & ! FaceNeighborMode
0, & ! TotalNumFaceNodes
0, & ! NumConnectedBoundaryFaces
0, & ! TotalNumBoundaryConnections
Null, & ! PassiveVarList
Null, & ! ValueLocation
Null, & ! ShareVarFromZone
0) ! ShareConnectivityFromZone)
!
! Write out the field data for the ordered zone.
!
III = IMax*JMax
I = TECDAT112(III,X,DIsDouble)
I = TECDAT112(III,Y,DIsDouble)
I = TECDAT112(III,P,DIsDouble)
!
! Calculate values for the I-ordered zone.
!
Do 20 I = 1,50
XL(I) = I
YL(I) = sin(I/20.0)
20 Continue
!
! Switch to the 'line.plt' file (file number 2)
! and write out the line plot data.
!
III = 2
I = TECFIL112(III)
!
! Write the zone header information for the XY-data.
!
IMax = 50
JMax = 1
KMax = 1
SolTime = 0.0
StrandID = 0
I = TECZNE112('XY Line plot'//NULCHAR, &
0, &
IMax, &
JMax, &
KMax, &
0, &
0, &
0, &
SolTime, &
StrandID, &
ParentZn, &
1, &
0, &
0, &
0, &
0, &
0, &
Null, &
Null, &
Null, &
0)
!
! Write out the line plot.
!
DIsDouble = 1
III = IMax
I = TECDAT112(III,XLDummy,DIsDouble)
I = TECDAT112(III,YLDummy,DIsDouble)
!
! Switch back to the field plot file and write out
! the finite-element zone.
!
III = 1
I = TECFIL112(III)
!
! Move the coordinates so this zone's not on top of the other
!
Do 30 J = 1,5
Do 30 I = 1,4
X(I,J) = I+5
Y(I,J) = J
P(I,J) = I*J
30 Continue
!
! Write the zone header information for the finite-element zone.
!
NPts = 20
NElm = 12
KMax = 1
SolTime = 10.0
StrandID = 2
I = TECZNE112('Finite Zone 1'//NULCHAR, &
3, & ! FEQUADRILATERAL
NPts, &
NElm, &
KMax, &
0, &
0, &
0, &
SolTime, &
StrandID, &
ParentZn, &
1, &
0, &
0, &
0, &
0, &
0, &
Null, &
Null, &
Null, &
0)
!
! Write out the field data for the finite-element zone.
!
IMax = 4
JMax = 5
III = IMax*JMax
DIsDouble = 0
I = TECDAT112(III,X,DIsDouble)
I = TECDAT112(III,Y,DIsDouble)
I = TECDAT112(III,P,DIsDouble)
!
! Calculate and then write out the connectivity list.
! Note: The NM array references cells starting with
! offset of 1.
!
Do 40 I = 1,IMax-1
Do 40 J = 1,JMax-1
K = I+(J-1)*(IMax-1)
L = I+(J-1)*IMax
NM(1,K) = L
NM(2,K) = L+1
NM(3,K) = L+IMax+1
NM(4,K) = L+IMax
40 Continue
I = TECNOD112(NM)
!
! Calculate vlues for the new solution variable.
!
Do 50 J = 1,5
Do 50 I = 1,4
P(I,J) = 2*I*J
50 Continue
!
! Write the zone header information for time step 2
!
IMax = 4
JMax = 5
KMax = 1
SolTime = 20.0
StrandID = 1
SharingZone(1) = 1
SharingZone(2) = 1
SharingZone(3) = 0
I = TECZNE112('Ordered Zone 2'//NULCHAR, &
0, & ! ORDERED
IMax, &
JMax, &
KMax, &
0, &
0, &
0, &
SolTime, &
StrandID, &
ParentZn, &
1, &
0, &
0, &
0, &
0, &
0, &
Null, &
Null, &
SharingZone, &
0)
!
! Write out the solution variable the grid variables are shared.
!
IMax = 4
JMax = 5
III = IMax*JMax
DIsDouble = 0
I = TECDAT112(III,P,DIsDouble)
!
! Calculate values for the new solution variable.
!
Do 60 J = 1,5
Do 60 I = 1,4
P(I,J) = 3*I*J
60 Continue
!
! Write another time step for the FEZone and share from the first
!
SolTime = 20.0
StrandID = 2
KMax = 0
SharingZone(1) = 2
SharingZone(2) = 2
SharingZone(3) = 0
I = TECZNE112('Finite Zone 2'//NULCHAR, &
3, & ! FEQUADRILATERAL
NPts, &
NElm, &
KMax, &
0, &
0, &
0, &
SolTime, &
StrandID, &
ParentZn, &
1, &
0, &
0, &
0, &
0, &
0, &
Null, &
Null, &
SharingZone, &
2)
!
! Write out the solution variable the grid variables are shared.
!
IMax = 4
JMax = 5
III = IMax*JMax
DIsDouble = 0
I = TECDAT112(III,P,DIsDouble)
!
! Prepare to write out text record. Text is positioned
! at 50, 50 in frame units and has a height 5 frame units.
!
XP = 50
YP = 50
FH = 5
Scope = 1
Clipping = 0
PositionCoordSys = 1
FontType = 1
HeightUnits = 1
AttachToZone = 0
Zone = 0
BoxType = 0
BoxMargin = 5.0
BoxLineThickness = 0.5
BoxColor = 3
BoxFillColor = 7
TextAngle = 0.0
Anchor = 0
LineSpacing = 1.5
TextColor = 0
III = TECTXT112(XP, &
YP, &
0.0d0, &
PositionCoordSys, &
AttachToZone, &
Zone, &
FontType, &
HeightUnits, &
FH, &
BoxType, &
BoxMargin, &
BoxLineThickness, &
BoxColor, &
BoxFillColor, &
TextAngle, &
Anchor, &
LineSpacing, &
TextColor, &
Scope, &
Clipping, &
'Hi Mom'//NULCHAR, &
NULCHAR)
!
! Prepare to write out geometry record (circle). Circle is
! positioned at 25, 25 in frame units and has a radius of 30.
! Circle is drawn using a dashed line pattern.
!
XP = 25
YP = 25
ZP = 0.0
IsFilled = 0
Color = 0
FillColor = 7
GeomType = 2
LinePattern = 1
LineThickness = 0.3
PatternLength = 1
NumEllipsePts = 72
ArrowheadStyle = 0
ArrowheadAttachment = 0
ArrowheadSize = 0.0
ArrowheadAngle = 15.0
NumSegments = 1
NumSegPts(1) = 1
XGeomData(1) = 30
YGeomData(1) = 0.0
ZGeomData(1) = 0.0
III = TECGEO112(XP, &
YP, &
ZP, &
PositionCoordSys, &
AttachToZone, &
Zone, &
Color, &
FillColor, &
IsFilled, &
GeomType, &
LinePattern, &
PatternLength, &
LineThickness, &
NumEllipsePts, &
ArrowheadStyle, &
ArrowheadAttachment, &
ArrowheadSize, &
ArrowheadAngle, &
Scope, &
Clipping, &
NumSegments, &
NumSegPts, &
XGeomData, &
YGeomData, &
ZGeomData, &
NULCHAR)
!
! Close out file 1.
!
I = TECEND112()
!
! Close out file 2.
!
III = 2
I = TECFIL112(III)
I = TECEND112()
STOP
END