Example #1
0
def getTimeUnifiedTables(*ttuple):
    """ principe :
    on envoie N tables dans la fonction, et on recupere
    N tables dont les instants sont l'union des instants
    de chacune des tables initiales
    """
    tablist = toList(ttuple)
    glue = tuple([x.getColumn(0).tolist() for x in tablist])
    if not len(glue): return
    temporary = glue[0]
    for element in glue[1:len(glue)]:
        for item in element:
            if item not in temporary:
                temporary.append(item)
                pass
            pass
        pass
    temporary.sort()

    new_tables = []
    for tabl in tablist:
        extravalues = interpolate(temporary, tabl)
        colt = tabl.getColumnTitles()
        tnew = Table(tabl.getTitle())
        tnew.addColumn(colt[0], temporary)
        tnew.addColumn(colt[1], extravalues)
        new_tables.append(tnew)
        pass
    return new_tables
Example #2
0
    #~~~~~~~~~~~~~~~~~~
    K_unk     = module.getOutput('KOutput')
    KX_unk     = module.getOutput('KXOutput')
    T_unk     = module.getOutput('TOutput')
    time        = K_unk[-1][0]
    print "time",time
    KY      = K_unk[-1][1]
    TY      = T_unk[-1][1]

    XListe   = KY.getColumn(0)
    dx0 = dx[1]
    dxListe = [dx0] * (len(XListe))

    from posttables import Table

    tab1  = Table('KY')
    tab1.addColumn('X',XListe)
    tab1.addColumn('Y',KY.getColumn(1))
    tab1.addColumn('K',KY.getColumn(2))
    KY = tab1
    tab2  = Table('KT')
    tab2.addColumn('X',XListe)
    tab2.addColumn('Y',TY.getColumn(1))
    tab2.addColumn('K',TY.getColumn(2))
    TY = tab2

    from _erffunctions import *

    C0 = 1.00058350e-06
    porosity = 0.3
    darcy = 1.e-3/3600
Example #3
0
print res_ph[-1][1].column_names
print res_ph[-1][1].values[-1]

NadeX      = res_na[-1][-1]
pHdeX      = res_ph[-1][-1]
tps        = res_ph[-1][0]

liste_X   = NadeX.getColumn(0)
dx0 = liste_X[0]
liste_dx0 = [dx0] * (len(liste_X))
print len(liste_dx0)
liste_decalX = subtractLists(liste_X,liste_dx0)
print len(liste_decalX)
from posttables import Table

tab1  = Table(name='TabNa')
tab1.addColumn('X',liste_decalX)
print "dbg0 ",len(liste_decalX),len(NadeX.getColumn(1))
tab1.addColumn('Y',NadeX.getColumn(1))
print "dbg1 ",len(NadeX.getColumn(2))
tab1.addColumn('Na',NadeX.getColumn(3))
NadeX = tab1

tab2  = Table(name='TabpH')
tab2.addColumn('X',liste_decalX)
tab2.addColumn('Y',pHdeX.getColumn(1))
tab2.addColumn('pH',pHdeX.getColumn(3))
pHdeX = tab2

print 'Times = ',tps,' secondes'
print ''
Example #4
0
res_cs     = module.getOutput('CsOutput')
tab = []

CsdeX      = res_cs[-1][1]

#=========================
# dx0 translation
#=========================
liste_X   = CsdeX.getColumn(0)
dx0 = dx [0]
liste_dx0 = [dx0] * (len(liste_X))
liste_decalX = subtractLists(liste_X,liste_dx0)

from posttables import Table

resTable = Table(name="TabCs")
resTable.addColumn("X",liste_decalX)
resTable.addColumn("Y",CsdeX.getColumn(1))
resTable.addColumn("Cs",CsdeX.getColumn(2))
CsdeX = resTable
print 'len(CsdeX.getColumn(2)) =',len(CsdeX.getColumn(2))

CsdeX. writeToFile('CsdeX_10j.tab')

#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#  Comparison to analytical concentration ~
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

print "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"
print "       compared to analytical solution"
print "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"
Example #5
0
#~~~~~~~~~~~~~~~~~~
res_ph     = module.getOutput('pH_output')
res_na     = module.getOutput('Na_output')

NadeX      = res_na[-1][1]
pHdeX      = res_ph[-1][1]
time       = res_ph[-1][0]
print "time:", time
dx0 = dx[1]
liste_X   = NadeX.getColumn(0)
liste_dx0 = [dx0] * (len(liste_X))
liste_decalX = subtractLists(liste_X,liste_dx0)

from posttables import Table

tab1  = Table(name = 'TabNa')
tab1.addColumn('X',liste_decalX)
tab1.addColumn('Y',NadeX.getColumn(1))
tab1.addColumn('Na',NadeX.getColumn(2))
NadeX = tab1

tab2  = Table(name = 'TabpH')
tab2.addColumn('X',liste_decalX)
tab2.addColumn('Y',pHdeX.getColumn(1))
tab2.addColumn('Na',pHdeX.getColumn(2))
pHdeX = tab2

pHdeX. writeToFile('pHdeX_10j.tab')
NadeX. writeToFile('NadeX_10j.tab')

#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Example #6
0
res_cs     = module.getOutput('CsOutput')
tab = []

CsdeX      = res_cs[-1][1]
print CsdeX.getColumn(0)
print CsdeX.getColumn(1)
print CsdeX.getColumn(2)
print CsdeX.getColumn(3)
#raw_input("column 3")
#=========================
# dx0 translation
#=========================

from posttables import Table

resTable = Table(name="TabCs")
resTable.addColumn("X",CsdeX.getColumn(0))
resTable.addColumn("Y",CsdeX.getColumn(1))
resTable.addColumn("Cs",CsdeX.getColumn(3))
CsdeX = resTable
print 'len(CsdeX.getColumn(2)) =',len(CsdeX.getColumn(2))

CsdeX. writeToFile('CsdeX_10j.tab')
#
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#  Comparison to analytical concentration ~
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
print "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"
print "      compared to analytical solution "
print "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"
Example #7
0
#~~~~~~~~~~~~~~~~~~
K_unk = module.getOutput('KOutput')
KX_unk = module.getOutput('KXOutput')
T_unk = module.getOutput('TOutput')
time = K_unk[-1][0]
print "time", time
KY = K_unk[-1][1]
TY = T_unk[-1][1]

XListe = KY.getColumn(0)
dx0 = dx[1]
dxListe = [dx0] * (len(XListe))

from posttables import Table

tab1 = Table('KY')
tab1.addColumn('X', XListe)
tab1.addColumn('Y', KY.getColumn(1))
tab1.addColumn('K', KY.getColumn(2))
KY = tab1
tab2 = Table('KT')
tab2.addColumn('X', XListe)
tab2.addColumn('Y', TY.getColumn(1))
tab2.addColumn('K', TY.getColumn(2))
TY = tab2

from _erffunctions import *

C0 = 1.00058350e-06
porosity = 0.3
darcy = 1.e-3 / 3600
Example #8
0
KX_unk = module.getOutput("KX_output")
print "KX =", KX_unk[-1][1].getColumn(3)[0:30]
T_unk = module.getOutput("T_output")
print "tracor =", T_unk[-1][1].getColumn(3)[0:30]
time = K_unk[-1][0]
print "time = ", time
KY = K_unk[-1][1]
TY = T_unk[-1][1]

XListe = KY.getColumn(0)
dx0 = 0.04 / 100
dxListe = [dx0] * 100

from posttables import Table

tab1 = Table(name="KY")
tab1.addColumn("X", XListe)
tab1.addColumn("Y", KY.getColumn(1))
tab1.addColumn("K", KY.getColumn(3))
KY = tab1
tab2 = Table(name="KT")
tab2.addColumn("X", XListe)
tab2.addColumn("Y", TY.getColumn(1))
tab2.addColumn("K", TY.getColumn(3))
TY = tab2

from _erffunctions import *

C0 = 1.0e-03
porosity = 1.0
darcy = 1.0e-3 / 3600