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Exercise no. 3 (approx. 15 min)
In this exercise you will browse MDSPlus database using jTraverser application.
1. source ITMv1 script by invoking
source $ITMSCRIPTDIR/ITMv1 kepler test 4.10b > /dev/null
2. Go to example directory
cd $TUTORIAL_DIR/cpo_basics/python/
3. Execute sample code
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shell> python ./put_cpo_array.py
shell> python ./put_cpo_slices.py |
4. Open example file
Handling CPOs: put() vs. putSlice() |
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language | py |
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title | $TUTORIAL_DIR/cpo_basics/python/put_cpo_array.py |
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linenumbers | true |
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| import sys
from pylab import *
import ual
cpo = ual.itm(13,3)
cpo.create()
if not cpo.isConnected():
print 'error during itmdb entry creation'
sys.exit(1)
cpo.equilibriumArray.resize(10)
equi = cpo.equilibriumArray
#First fill fields which are not time-dependent.
equi.array[0].datainfo.dataprovider = 'MKO'
equi.array[0].datainfo.putdate = '20/09/2016'
equi.array[0].codeparam.parameters = 'param'
# ---- a loop ----
for i in range(0, 10):
#Fill time-dependent fields
equi.array[i].eqgeometry.boundary.resize(1)
equi.array[i].eqgeometry.boundary[0].r = sin(arange(0,2*pi,2*pi/100)) + (1/float(100-i))
equi.array[i].eqgeometry.boundary[0].z = cos(arange(0,2*pi,2*pi/100)) + (1/float(100-i))
#Do not forget time!!
equi.array[i].time = i
# ---- a loop ----
#Save data in the database
equi.put() # <= Called outside the loop
#close the pulse file
cpo.close() |
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language | py |
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title | $TUTORIAL_DIR/cpo_basics/python/put_cpo_slices.py |
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linenumbers | true |
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| import sys
from pylab import *
import ual
cpo = ual.itm(14,4)
cpo.create()
if not cpo.isConnected():
print 'error during itmdb entry creation'
sys.exit(1)
equi = cpo.equilibrium
#First fill fields which are not time-dependent.
equi.datainfo.dataprovider = 'MKO'
equi.datainfo.putdate = '20/09/2016'
equi.codeparam.parameters = 'param'
#Save time independent fields
equi.putNonTimed()
# ---- a loop ----
for i in range(0, 10):
#Fill time-dependent fields
equi.eqgeometry.boundary.resize(1)
equi.eqgeometry.boundary[0].r = sin(arange(0,2*pi,2*pi/100)) + (1/float(100-i))
equi.eqgeometry.boundary[0].z = cos(arange(0,2*pi,2*pi/100)) + (1/float(100-i))
#Do not forget time!!
equi.time = i
#Append this slice in the database
equi.putSlice() # <= Called inside the loop
# ---- a loop ----
#close the pulse file
cpo.close() |
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Handling CPOs: get() vs. getSlice() |
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Code Block |
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title | $TUTORIAL_DIR/cpo_basics/fortran/get_cpo_array.f90 |
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linenumbers | true |
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| program diagnostic
use euitm_schemas
use euitm_routines
implicit none
integer :: idx, i, arraySize
type (type_equilibrium), pointer :: eqArray(:) ! <= Array !!!
call euitm_open('euitm', 14, 4, idx)
call euitm_get(idx, 'equilibrium', eqArray)
arraySize = size(eqArray)
write (*,*) "Number of slices: ", arraySize
do i=1, arraySize
write (*,*) "Time: ", eqArray(i)%time
write (*,*) "Value of r: ", eqArray(i)%eqgeometry%boundary(1)%r(1)
write (*,*) "Value of z: ", eqArray(i)%eqgeometry%boundary(1)%z(1)
enddo
call euitm_close(idx)
end program |
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title | $TUTORIAL_DIR/cpo_basics/fortran/get_cpo_slices.f90 |
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linenumbers | true |
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| program diagnostic
use euitm_schemas
use euitm_routines
implicit none
integer :: idx, i, arraySize
type (type_equilibrium) :: equilibrium
real(EUITM_R8), pointer :: timeVector(:)
real(EUITM_R8) :: time
call euitm_open('euitm', 14, 4, idx)
call euitm_get_times(idx, 'equilibrium',timeVector)
arraySize = size(timeVector)
write (*,*) "Number of slices: ", arraySize
write (*,*) "Time vector: ", timeVector
do i = 1, arraySize
time = timeVector(i)
call euitm_get_slice(idx, 'equilibrium', equilibrium, time, 1)
write (*,*) "Time [", time, "]: ", equilibrium%time
write (*,*) "Value of r: ", equilibrium%eqgeometry%boundary(1)%r(1)
write (*,*) "Value of z: ", equilibrium%eqgeometry%boundary(1)%z(1)
enddo
call euitm_close(idx)
end program |
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3. Open GetSlice.f90 file
vi GetSlice.f90
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4. Compile the code
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programshell> diagnostic
use euitm_schemas
use euitm_routines
use write_structures
implicit none
integer :: idx
type (type_equilibrium), pointer :: equilibrium(:)
Integer x
call euitm_open('euitm', 12, 2, idx)
call euitm_get(idx, 'equilibrium', equilibrium)
write (*,*) "Size of CPO: ", size(equilibrium)
write (*,*) "Value of r: ", equilibrium(1)%eqgeometry%boundary(1)%r(1)
write (*,*) "Value of z: ", equilibrium(1)%eqgeometry%boundary(1)%z(1)
call euitm_close(idx)
call euitm_disconnect()
end program |
5. Run the code
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make clean
make
./readEquilibriumshell> ./get_cpo_array.exe
shell> ./get_cpo_slices.exe |
6. You should see values that we have stored using Python based code.
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