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Cloned SEACAS for EXODUS library with extra build files for internal package management.
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EXODUS/packages/seacas/libraries/exodus_for/test/testwt1.f

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C Copyright(C) 1999-2020 National Technology & Engineering Solutions
C of Sandia, LLC (NTESS). Under the terms of Contract DE-NA0003525 with
C NTESS, the U.S. Government retains certain rights in this software.
C
C See packages/seacas/LICENSE for details
program testwt1
c This is a test program for the Fortran binding of the EXODUS II
c database write routines.
c history -
c Original L.A. Schoof
c 02/25/93 V.R. Yarberry - Added error checks for file creation.
c 03/04/93 V.R. Yarberry - Fixed bug in expvtt test, ebids was not passed
c 08/31/93 VRY - updated to match API version 2.00
include 'exodusII.inc'
integer iin, iout
integer exoid, num_dim, num_nodes, num_elem, num_elem_blk
integer num_elem_in_block(10), num_nodes_per_elem(10),numattr(10)
integer num_node_sets, num_side_sets
integer i, j, k, m, elem_map(10), node_map(100), connect(10)
integer node_list(100), elem_list(100), side_list(100)
integer ebids(10),ids(10), num_nodes_per_set(10)
integer num_elem_per_set(10), num_df_per_set(10)
integer df_ind(10), node_ind(10), elem_ind(10)
integer num_qa_rec, num_info
integer num_glo_vars, num_nod_vars, num_ele_vars
integer truth_tab(3,7)
integer whole_time_step, num_time_steps
integer cpu_word_size, io_word_size
integer prop_array(2)
real glob_var_vals(100), nodal_var_vals(100)
real time_value, elem_var_vals(100)
real x(100), y(100), z(100)
real attrib(100), dist_fact(100)
character*(MXSTLN) coord_names(3)
character*(MXSTLN) cname
character*(MXSTLN) var_names(3)
character*(MXSTLN) qa_record(4,2)
character*(MXLNLN) inform(3)
character*(MXSTLN) prop_names(2)
character*(MXSTLN) attrib_names(3)
character*(MXSTLN) blk_names(7)
data iin /5/, iout /6/
cpu_word_size = 0
io_word_size = 0
c create EXODUS II files
exoid = excre ("test.exo",
1 EXCLOB, cpu_word_size, io_word_size, ierr)
write (iout,'("after excre for test.exo, id: ", i4)') exoid
write (iout,'(" cpu word size: ",i4," io word size: ",i4)')
1 cpu_word_size, io_word_size
write (iout,'("after excre, error = ", i4)') ierr
c initialize file with parameters
num_dim = 3
num_nodes = 28
num_elem = 8
num_elem_blk = 7
num_node_sets = 2
num_side_sets = 5
c Uncomment the following line to test NULL side sets
c num_side_sets = 6
call expini (exoid, "This is testwt1", num_dim, num_nodes,
1 num_elem, num_elem_blk, num_node_sets,
2 num_side_sets, ierr)
write (iout, '("after expini, error = ", i4)' ) ierr
c write nodal coordinates values and names to database
c Quad #1
x(1) = 0.0
x(2) = 1.0
x(3) = 1.0
x(4) = 0.0
y(1) = 0.0
y(2) = 0.0
y(3) = 1.0
y(4) = 1.0
z(1) = 0.0
z(2) = 0.0
z(3) = 0.0
z(4) = 0.0
c Quad #2
x(5) = 1.0
x(6) = 2.0
x(7) = 2.0
x(8) = 1.0
y(5) = 0.0
y(6) = 0.0
y(7) = 1.0
y(8) = 1.0
z(5) = 0.0
z(6) = 0.0
z(7) = 0.0
z(8) = 0.0
c Hex #1
x(9) = 0.0
x(10) = 10.0
x(11) = 10.0
x(12) = 1.0
x(13) = 1.0
x(14) = 10.0
x(15) = 10.0
x(16) = 1.0
y(9) = 0.0
y(10) = 0.0
y(11) = 0.0
y(12) = 0.0
y(13) = 10.0
y(14) = 10.0
y(15) = 10.0
y(16) = 10.0
z(9) = 0.0
z(10) = 0.0
z(11) =-10.0
z(12) =-10.0
z(13) = 0.0
z(14) = 0.0
z(15) =-10.0
z(16) =-10.0
c Tetra #1
x(17) = 0.0
x(18) = 1.0
x(19) = 10.0
x(20) = 7.0
y(17) = 0.0
y(18) = 0.0
y(19) = 0.0
y(20) = 5.0
z(17) = 0.0
z(18) = 5.0
z(19) = 2.0
z(20) = 3.0
c Circle #1
x(21) = 100.0
y(21) = 100.0
z(21) = 0.0
c Sphere #1
x(22) = 50.0
y(22) = 50.0
z(22) = 20.0
c Wedge #1
x(23) = 3.0
x(24) = 6.0
x(25) = 0.0
x(26) = 3.0
x(27) = 6.0
x(28) = 0.0
y(23) = 0.0
y(24) = 0.0
y(25) = 0.0
y(26) = 2.0
y(27) = 2.0
y(28) = 2.0
z(23) = 6.0
z(24) = 0.0
z(25) = 0.0
z(26) = 6.0
z(27) = 2.0
z(28) = 0.0
call expcor (exoid, x, y, z, ierr)
write (iout, '("after expcor, error = ", i4)' ) ierr
coord_names(1) = "xcoor"
coord_names(2) = "ycoor"
coord_names(3) = "zcoor"
call expcon (exoid, coord_names, ierr)
write (iout, '("after expcon, error = ", i4)' ) ierr
c write node and element map parameters
n_node_maps = 1
n_elem_maps = 2
call expmp (exoid, n_node_maps, n_elem_maps, ierr)
write (iout, '("after expmp, error = ", i4)' ) ierr
c write element map properties
prop_names(1) = "ORDER"
prop_names(2) = "NUMBER"
call exppn(exoid,EXEMAP,2,prop_names,ierr)
write (iout, '("after exppn, error = ", i4)' ) ierr
c write element order map
do 10 i = 1, num_elem
elem_map(i) = i
10 continue
id = 111
call expem (exoid, id, elem_map, ierr)
write (iout, '("after expem, error = ", i4)' ) ierr
call expp(exoid, EXEMAP, id, "ORDER", 1, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
c write element numbering map
id = 222
C write map an element at a time...
do 11 i = 1, num_elem
elem_map(i) = i*2
call exppem (exoid, id, i, 1, elem_map(i), ierr)
write (iout, '("after exppem, error = ", i4)' ) ierr
11 continue
call expp(exoid, EXEMAP, id, "NUMBER", 1, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
c write node map properties
prop_names(1) = "NUMBER"
call exppn(exoid,EXNMAP,1,prop_names,ierr)
write (iout, '("after exppn, error = ", i4)' ) ierr
c write node numbering map
do 13 i = 1, num_nodes
node_map(i) = i*3
13 continue
id = 333
call expnm (exoid, id, node_map, ierr)
write (iout, '("after expnm, error = ", i4)' ) ierr
call expp(exoid, EXNMAP, id, "NUMBER", 1, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
c write element block parameters
num_elem_in_block(1) = 1
num_elem_in_block(2) = 2
num_elem_in_block(3) = 1
num_elem_in_block(4) = 1
num_elem_in_block(5) = 1
num_elem_in_block(6) = 1
num_elem_in_block(7) = 1
num_nodes_per_elem(1) = 4
num_nodes_per_elem(2) = 4
num_nodes_per_elem(3) = 8
num_nodes_per_elem(4) = 4
num_nodes_per_elem(5) = 1
num_nodes_per_elem(6) = 1
num_nodes_per_elem(7) = 6
ebids(1) = 10
ebids(2) = 11
ebids(3) = 12
ebids(4) = 13
ebids(5) = 14
ebids(6) = 15
ebids(7) = 16
numattr(1) = 3
numattr(2) = 3
numattr(3) = 3
numattr(4) = 3
numattr(5) = 3
numattr(6) = 3
numattr(7) = 3
blk_names(1) = "e_block_i"
blk_names(2) = "e_block_ii"
blk_names(3) = "e_block_iii"
blk_names(4) = "e_block_iv"
blk_names(5) = "e_block_v"
blk_names(6) = "e_block_vi"
blk_names(7) = "e_block_vii"
cname = "quad"
call expelb (exoid,ebids(1),cname,num_elem_in_block(1),
1 num_nodes_per_elem(1),numattr(1),ierr)
write (iout, '("after expelb, error = ", i4)' ) ierr
call expnam (exoid,EXEBLK,ebids(1),blk_names(1), ierr)
write (iout, '("after expnam, error = ", i4)' ) ierr
call expelb (exoid,ebids(2),cname,num_elem_in_block(2),
1 num_nodes_per_elem(2),numattr(2),ierr)
write (iout, '("after expelb, error = ", i4)' ) ierr
call expnam (exoid,EXEBLK,ebids(2),blk_names(2), ierr)
write (iout, '("after expnam, error = ", i4)' ) ierr
cname = "hex"
call expelb (exoid,ebids(3),cname,num_elem_in_block(3),
1 num_nodes_per_elem(3),numattr(3),ierr)
write (iout, '("after expelb, error = ", i4)' ) ierr
call expnam (exoid,EXEBLK,ebids(3),blk_names(3), ierr)
write (iout, '("after expnam, error = ", i4)' ) ierr
cname = "tetra"
call expelb (exoid,ebids(4),cname,num_elem_in_block(4),
1 num_nodes_per_elem(4),numattr(4),ierr)
write (iout, '("after expelb, error = ", i4)' ) ierr
call expnam (exoid,EXEBLK,ebids(4),blk_names(4), ierr)
write (iout, '("after expnam, error = ", i4)' ) ierr
cname = "circle"
call expelb (exoid,ebids(5),cname,num_elem_in_block(5),
1 num_nodes_per_elem(5),numattr(5),ierr)
write (iout, '("after expelb, error = ", i4)' ) ierr
call expnam (exoid,EXEBLK,ebids(5),blk_names(5), ierr)
write (iout, '("after expnam, error = ", i4)' ) ierr
cname = "sphere"
call expelb (exoid,ebids(6),cname,num_elem_in_block(6),
1 num_nodes_per_elem(6),numattr(6),ierr)
write (iout, '("after expelb, error = ", i4)' ) ierr
call expnam (exoid,EXEBLK,ebids(6),blk_names(6), ierr)
write (iout, '("after expnam, error = ", i4)' ) ierr
cname = "wedge"
call expelb (exoid,ebids(7),cname,num_elem_in_block(7),
1 num_nodes_per_elem(7),numattr(7),ierr)
write (iout, '("after expelb, error = ", i4)' ) ierr
call expnam (exoid,EXEBLK,ebids(7),blk_names(7), ierr)
write (iout, '("after expnam, error = ", i4)' ) ierr
c write element block properties
prop_names(1) = "MATL"
prop_names(2) = "DENSITY"
call exppn(exoid,EXEBLK,2,prop_names,ierr)
write (iout, '("after exppn, error = ", i4)' ) ierr
call expp(exoid, EXEBLK, ebids(1), "MATL", 10, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXEBLK, ebids(2), "MATL", 20, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXEBLK, ebids(3), "MATL", 30, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXEBLK, ebids(4), "MATL", 40, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXEBLK, ebids(5), "MATL", 50, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXEBLK, ebids(6), "MATL", 60, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXEBLK, ebids(7), "MATL", 70, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
c write element connectivity
connect(1) = 1
connect(2) = 2
connect(3) = 3
connect(4) = 4
call expelc (exoid, ebids(1), connect, ierr)
write (iout, '("after expelc, error = ", i4)' ) ierr
connect(1) = 1
connect(2) = 2
connect(3) = 3
connect(4) = 4
connect(5) = 5
connect(6) = 6
connect(7) = 7
connect(8) = 8
call expelc (exoid, ebids(2), connect, ierr)
write (iout, '("after expelc, error = ", i4)' ) ierr
connect(1) = 9
connect(2) = 10
connect(3) = 11
connect(4) = 12
connect(5) = 13
connect(6) = 14
connect(7) = 15
connect(8) = 16
call expelc (exoid, ebids(3), connect, ierr)
write (iout, '("after expelc, error = ", i4)' ) ierr
connect(1) = 17
connect(2) = 18
connect(3) = 19
connect(4) = 20
call expelc (exoid, ebids(4), connect, ierr)
write (iout, '("after expelc, error = ", i4)' ) ierr
connect(1) = 21
call expelc (exoid, ebids(5), connect, ierr)
write (iout, '("after expelc, error = ", i4)' ) ierr
connect(1) = 22
call expelc (exoid, ebids(6), connect, ierr)
write (iout, '("after expelc, error = ", i4)' ) ierr
connect(1) = 23
connect(2) = 24
connect(3) = 25
connect(4) = 26
connect(5) = 27
connect(6) = 28
call expelc (exoid, ebids(7), connect, ierr)
write (iout, '("after expelc, error = ", i4)' ) ierr
c write element block attributes
attrib(1) = 1.0 ! block 1
attrib(2) = 2.0
attrib(3) = 3.0
attrib(4) = 1.11 ! block 2, element 1
attrib(5) = 2.11
attrib(6) = 3.11
attrib(7) = 1.12 ! block 2, element 2
attrib(8) = 2.12
attrib(9) = 3.12
attrib(10) = 1.2 ! block 3
attrib(11) = 2.2
attrib(12) = 3.2
attrib(13) = 1.3 ! block 4
attrib(14) = 2.3
attrib(15) = 3.3
attrib(16) = 1.4 ! block 5
attrib(17) = 2.4
attrib(18) = 3.4
attrib(19) = 1.5 ! block 6
attrib(20) = 2.5
attrib(21) = 3.5
attrib(22) = 1.6 ! block 7
attrib(23) = 2.6
attrib(24) = 3.6
call expeat (exoid, ebids(1), attrib(1), ierr)
write (iout, '("after expeat, error = ", i4)' ) ierr
call expeat (exoid, ebids(2), attrib(4), ierr)
write (iout, '("after expeat, error = ", i4)' ) ierr
call expeat (exoid, ebids(3), attrib(10), ierr)
write (iout, '("after expeat, error = ", i4)' ) ierr
call expeat (exoid, ebids(4), attrib(13), ierr)
write (iout, '("after expeat, error = ", i4)' ) ierr
call expeat (exoid, ebids(5), attrib(16), ierr)
write (iout, '("after expeat, error = ", i4)' ) ierr
call expeat (exoid, ebids(6), attrib(19), ierr)
write (iout, '("after expeat, error = ", i4)' ) ierr
call expeat (exoid, ebids(7), attrib(22), ierr)
write (iout, '("after expeat, error = ", i4)' ) ierr
attrib_names(1) = "attribute_1"
attrib_names(2) = "attribute_2"
attrib_names(3) = "attribute_3"
do i=1, num_elem_blk
call expean (exoid, ebids(i), numattr(i), attrib_names, ierr)
write (iout, '("after expean, error = ", i4)' ) ierr
end do
c write individual node sets
node_list(1) = 100
node_list(2) = 101
node_list(3) = 102
node_list(4) = 103
node_list(5) = 104
dist_fact(1) = 1.0
dist_fact(2) = 2.0
dist_fact(3) = 3.0
dist_fact(4) = 4.0
dist_fact(5) = 5.0
c call expnp (exoid, 20, 5, 5, ierr)
c write (iout, '("after expnp, error = ", i4)' ) ierr
c call expns (exoid, 20, node_list, ierr)
c write (iout, '("after expns, error = ", i4)' ) ierr
c call expnsd (exoid, 20, dist_fact, ierr)
c write (iout, '("after expnsd, error = ", i4)' ) ierr
node_list(1) = 200
node_list(2) = 201
node_list(3) = 202
dist_fact(1) = 1.1
dist_fact(2) = 2.1
dist_fact(3) = 3.1
c call expnp (exoid, 21, 3, 3, ierr)
c write (iout, '("after expnp, error = ", i4)' ) ierr
c call expns (exoid, 21, node_list, ierr)
c write (iout, '("after expns, error = ", i4)' ) ierr
c call expnsd (exoid, 21, dist_fact, ierr)
c write (iout, '("after expnsd, error = ", i4)' ) ierr
c write concatenated node sets; this produces the same information as
c the above code which writes individual node sets
ids(1) = 20
ids(2) = 21
num_nodes_per_set(1) = 5
num_nodes_per_set(2) = 3
num_df_per_set(1) = 5
num_df_per_set(2) = 3
node_ind(1) = 1
node_ind(2) = 6
df_ind(1) = 1
df_ind(2) = 6
node_list(1) = 100
node_list(2) = 101
node_list(3) = 102
node_list(4) = 103
node_list(5) = 104
node_list(6) = 200
node_list(7) = 201
node_list(8) = 202
dist_fact(1) = 1.0
dist_fact(2) = 2.0
dist_fact(3) = 3.0
dist_fact(4) = 4.0
dist_fact(5) = 5.0
dist_fact(6) = 1.1
dist_fact(7) = 2.1
dist_fact(8) = 3.1
call expcns (exoid, ids, num_nodes_per_set, num_df_per_set,
1 node_ind, df_ind, node_list, dist_fact, ierr)
write (iout, '("after expcns, error = ", i4)' ) ierr
c write node set properties
prop_names(1) = "FACE"
call expp(exoid, EXNSET, 20, prop_names(1), 4, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXNSET, 21, prop_names(1), 5, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
prop_array(1) = 1000
prop_array(2) = 2000
prop_names(1) = "VELOCITY"
call exppa(exoid, EXNSET, prop_names(1), prop_array, ierr)
write (iout, '("after exppa, error = ", i4)' ) ierr
c write individual side sets
elem_list(1) = 11
elem_list(2) = 12
side_list(1) = 1
side_list(2) = 2
dist_fact(1) = 30.0
dist_fact(2) = 30.1
dist_fact(3) = 30.2
dist_fact(4) = 30.3
c call expsp (exoid, 30, 2, 4, ierr)
c write (iout, '("after expsp, error = ", i4)' ) ierr
c call expss (exoid, 30, elem_list, side_list, ierr)
c write (iout, '("after expss, error = ", i4)' ) ierr
c call expssd (exoid, 30, dist_fact, ierr)
c write (iout, '("after expssd, error = ", i4)' ) ierr
elem_list(1) = 13
elem_list(2) = 14
side_list(1) = 3
side_list(2) = 4
dist_fact(1) = 31.0
dist_fact(2) = 31.1
dist_fact(3) = 31.2
dist_fact(4) = 31.3
c call expsp (exoid, 31, 2, 4, ierr)
c write (iout, '("after expsp, error = ", i4)' ) ierr
c call expss (exoid, 31, elem_list, side_list, ierr)
c write (iout, '("after expss, error = ", i4)' ) ierr
c call expssd (exoid, 31, dist_fact, ierr)
c write (iout, '("after expssd, error = ", i4)' ) ierr
c write concatenated side sets; this produces the same information as
c the above code which writes individual side sets
ids(1) = 30
ids(2) = 31
ids(3) = 32
ids(4) = 33
ids(5) = 34
ids(6) = 35
c side set #1 - quad
node_list(1) = 8
node_list(2) = 5
node_list(3) = 6
node_list(4) = 7
c side set #2 - quad/hex, spanning 2 element types
node_list(5) = 2
node_list(6) = 3
node_list(7) = 7
node_list(8) = 8
c side set #3 - hex
node_list(9) = 9
node_list(10) = 12
node_list(11) = 11
node_list(12) = 10
node_list(13) = 11
node_list(14) = 12
node_list(15) = 16
node_list(16) = 15
node_list(17) = 16
node_list(18) = 15
node_list(19) = 11
node_list(20) = 12
node_list(21) = 10
node_list(22) = 11
node_list(23) = 15
node_list(24) = 14
node_list(25) = 13
node_list(26) = 16
node_list(27) = 12
node_list(28) = 9
node_list(29) = 14
node_list(30) = 13
node_list(31) = 9
node_list(32) = 10
node_list(33) = 16
node_list(34) = 13
node_list(35) = 14
node_list(36) = 15
c side set #4 - Tetra
node_list(37) = 17
node_list(38) = 18
node_list(39) = 20
node_list(40) = 18
node_list(41) = 19
node_list(42) = 20
node_list(43) = 20
node_list(44) = 19
node_list(45) = 17
node_list(46) = 19
node_list(47) = 18
node_list(48) = 17
c side set #5 - Circle/Sphere
node_list(49) = 21
node_list(50) = 22
c side set #6 - Wedges
node_list(51) = 27
node_list(52) = 26
node_list(53) = 23
node_list(54) = 24
node_list(55) = 28
node_list(56) = 27
node_list(57) = 24
node_list(58) = 25
node_list(59) = 28
node_list(60) = 25
node_list(61) = 23
node_list(62) = 26
node_list(63) = 25
node_list(64) = 24
node_list(65) = 23
node_list(66) = 26
node_list(67) = 27
node_list(68) = 28
num_elem_per_set(1) = 2
num_elem_per_set(2) = 2
num_elem_per_set(3) = 7
num_elem_per_set(4) = 4
num_elem_per_set(5) = 2
num_elem_per_set(6) = 5
c Uncomment following line to test NULL side sets
c num_elem_per_set(6) = 0
num_nodes_per_set(1) = 4
num_nodes_per_set(2) = 4
num_nodes_per_set(3) = 28
num_nodes_per_set(4) = 12
num_nodes_per_set(5) = 2
num_nodes_per_set(6) = 18
elem_ind(1) = 1
elem_ind(2) = 3
elem_ind(3) = 5
elem_ind(4) = 12
elem_ind(5) = 16
elem_ind(6) = 18
node_ind(1) = 1
node_ind(2) = 5
node_ind(3) = 9
node_ind(4) = 37
node_ind(5) = 48
node_ind(6) = 50
elem_list(1) = 3
elem_list(2) = 3
elem_list(3) = 1
elem_list(4) = 3
elem_list(5) = 4
elem_list(6) = 4
elem_list(7) = 4
elem_list(8) = 4
elem_list(9) = 4
elem_list(10) = 4
elem_list(11) = 4
elem_list(12) = 5
elem_list(13) = 5
elem_list(14) = 5
elem_list(15) = 5
elem_list(16) = 6
elem_list(17) = 7
elem_list(18) = 8
elem_list(19) = 8
elem_list(20) = 8
elem_list(21) = 8
elem_list(22) = 8
c side_list(1) = 1
c side_list(2) = 2
c side_list(3) = 3
c side_list(4) = 4
call excn2s(exoid, num_elem_per_set, num_nodes_per_set, elem_ind,
1 node_ind, elem_list, node_list, side_list, ierr)
write (iout, '("after excn2s, error = ", i4)' ) ierr
num_df_per_set(1) = 4
num_df_per_set(2) = 4
num_df_per_set(3) = 0
num_df_per_set(4) = 0
num_df_per_set(5) = 0
num_df_per_set(6) = 0
df_ind(1) = 1
df_ind(2) = 5
df_ind(3) = 9
df_ind(4) = 9
df_ind(5) = 9
df_ind(6) = 9
dist_fact(1) = 30.0
dist_fact(2) = 30.1
dist_fact(3) = 30.2
dist_fact(4) = 30.3
dist_fact(5) = 31.0
dist_fact(6) = 31.1
dist_fact(7) = 31.2
dist_fact(8) = 31.3
call expcss (exoid, ids, num_elem_per_set, num_df_per_set,
1 elem_ind, df_ind, elem_list, side_list, dist_fact,
2 ierr)
write (iout, '("after expcss, error = ", i4)' ) ierr
prop_names(1) = "COLOR"
call expp(exoid, EXSSET, 30, prop_names(1), 100, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
call expp(exoid, EXSSET, 31, prop_names(1), 101, ierr)
write (iout, '("after expp, error = ", i4)' ) ierr
c write QA records
num_qa_rec = 2
qa_record(1,1) = "TESTWT1 fortran version"
qa_record(2,1) = "testwt1"
qa_record(3,1) = "03/16/94"
qa_record(4,1) = "15:41:33"
qa_record(1,2) = "FASTQ"
qa_record(2,2) = "fastq"
qa_record(3,2) = "07/07/93"
qa_record(4,2) = "16:41:33"
call expqa (exoid, num_qa_rec, qa_record, ierr)
write (iout, '("after expqa, error = ", i4)' ) ierr
c write information records
num_info = 3
inform(1) = "This is the first information record."
inform(2) = "This is the second information record."
inform(3) = "This is the third information record."
call expinf (exoid, num_info, inform, ierr)
write (iout, '("after expinf, error = ", i4)' ) ierr
c write results variables parameters and names
num_glo_vars = 1
var_names(1) = "glo vars"
call expvp (exoid, "g", num_glo_vars, ierr)
write (iout, '("after expvp, error = ", i4)' ) ierr
call expvnm (exoid, "g", 1, var_names(1), ierr)
write (iout, '("after expvan, error = ", i4)' ) ierr
num_nod_vars = 2
var_names(1) = "nod_var0"
var_names(2) = "nod_var1"
call expvp (exoid, "n", num_nod_vars, ierr)
write (iout, '("after expvp, error = ", i4)' ) ierr
call expvan (exoid, "n", num_nod_vars, var_names, ierr)
write (iout, '("after expvan, error = ", i4)' ) ierr
num_ele_vars = 3
var_names(1) = "ele_var0"
var_names(2) = "ele_var1"
var_names(3) = "ele_var2"
call expvp (exoid, "e", num_ele_vars, ierr)
write (iout, '("after expvp, error = ", i4)' ) ierr
call expvan (exoid, "e", num_ele_vars, var_names, ierr)
write (iout, '("after expvan, error = ", i4)' ) ierr
c write element variable truth table
k = 0
do 30 i = 1,num_elem_blk
do 20 j = 1,num_ele_vars
truth_tab(j,i) = 1
20 continue
30 continue
truth_tab(1,3) = 0
c call expvtt (exoid, num_elem_blk, num_ele_vars, truth_tab, ierr)
c write (iout, '("after expvtt, error = ", i4)' ) ierr
c for each time step, write the analysis results;
c the code below fills the arrays glob_var_vals,
c nodal_var_vals, and elem_var_vals with values for debugging purposes;
c obviously the analysis code will populate these arrays
whole_time_step = 1
num_time_steps = 10
do 110 i = 1, num_time_steps
time_value = real(i)/100.
c write time value
call exptim (exoid, whole_time_step, time_value, ierr)
write (iout, '("after exptim, error = ", i4)' ) ierr
c write global variables
do 50 j = 1, num_glo_vars
glob_var_vals(j) = real(j+1) * time_value
50 continue
call expgv (exoid, whole_time_step, num_glo_vars,
1 glob_var_vals, ierr)
write (iout, '("after expgv, error = ", i4)' ) ierr
c write nodal variables
do 70 k = 1, num_nod_vars
do 60 j = 1, num_nodes
nodal_var_vals(j) = real(k) + (real(j) * time_value)
60 continue
call expnv (exoid, whole_time_step, k, num_nodes,
1 nodal_var_vals, ierr)
write (iout, '("after expnv, error = ", i4)' ) ierr
70 continue
c write element variables
do 100 k = 1, num_ele_vars
do 90 j = 1, num_elem_blk
do 80 m = 1, num_elem_in_block(j)
elem_var_vals(m) = real(k+1) + real(j+1) +
1 (real(m)*time_value)
c write(iout,*)'elem_var_val(',m,'): ',elem_var_vals(m)
80 continue
if (k .eq. 1 .and. j .eq. 3) then
continue ! skip element block 3, variable 1
else
call expev (exoid, whole_time_step, k, ebids(j),
1 num_elem_in_block(j), elem_var_vals, ierr)
write (iout, '("after expev, error = ", i4)' ) ierr
endif
90 continue
100 continue
whole_time_step = whole_time_step + 1
c update the data file; this should be done at the end of every time
c step to ensure that no data is lost if the analysis dies
call exupda (exoid, ierr)
write (iout, '("after exupda, error = ", i4)' ) ierr
110 continue
c close the EXODUS files
call exclos (exoid, ierr)
write (iout, '("after exclos, error = ", i4)' ) ierr
stop
end