KNOLG, indices = np.unique(np.ravel(IKLE2), return_index=True)
KNOGL = dict(zip(KNOLG, range(len(KNOLG))))
bnd.IKLE2 = -np.ones_like(IKLE2, dtype=np.int)
for k in range(len(IKLE2)):
bnd.IKLE2[k] = [
KNOGL[IKLE2[k][0]], KNOGL[IKLE2[k][1]]
] # /!\ bnd.IKLE2 has a local numbering, fit to the boundary elements
# Last few numbers
bnd.NELEM2 = len(bnd.IKLE2)
if slf.NPLAN > 1: bnd.NELEM3 = bnd.NELEM2 * (slf.NPLAN - 1)
else: bnd.NELEM3 = bnd.NELEM2
# 3D structures
if slf.NPLAN > 1:
bnd.IPOB3 = np.ravel(
np.add(
np.repeat(bnd.IPOB2,
slf.NPLAN).reshape((bnd.NPOIN2, slf.NPLAN)),
bnd.NPOIN2 * np.arange(slf.NPLAN)).T)
bnd.IKLE3 = \
np.repeat(bnd.NPOIN2*np.arange(slf.NPLAN-1),bnd.NELEM2*bnd.NDP3).reshape((bnd.NELEM2*(slf.NPLAN-1),bnd.NDP3)) + \
np.tile(np.add(np.tile(bnd.IKLE2,2),np.repeat(bnd.NPOIN2*np.arange(2),bnd.NDP2)),(slf.NPLAN-1,1))
else:
bnd.IPOB3 = bnd.IPOB2
bnd.IKLE3 = bnd.IKLE2
# Mesh coordinates
bnd.MESHX = geo.MESHX[BOR - 1]
bnd.MESHY = geo.MESHY[BOR - 1]
print ' +> writing header'
# Write header
bnd.appendHeaderSLF()
ini.VARINDEX = range(ini.NVAR)
# Sizes and mesh connectivity
ini.NPLAN = slf.NPLAN
ini.NDP2 = 3
ini.NDP3 = 6
ini.NPOIN2 = geo.NPOIN2
ini.NPOIN3 = geo.NPOIN2*ini.NPLAN
ini.NELEM2 = geo.NELEM2
ini.NELEM3 = ini.NELEM2*(ini.NPLAN-1)
print ' +> setting connectivity'
ini.IKLE3 = \
np.repeat(geo.NPOIN2*np.arange(ini.NPLAN-1),geo.NELEM2*ini.NDP3).reshape((geo.NELEM2*(ini.NPLAN-1),ini.NDP3)) + \
np.tile(np.add(np.tile(geo.IKLE2,2),np.repeat(geo.NPOIN2*np.arange(2),geo.NDP2)),(ini.NPLAN-1,1))
ini.IPOB3 = np.ravel(np.add(np.repeat(geo.IPOB2,ini.NPLAN).reshape((geo.NPOIN2,ini.NPLAN)),geo.NPOIN2*np.arange(ini.NPLAN)).T)
ini.IPARAM = [0,0,0,0,0,0,ini.NPLAN,0,0,0]
# Mesh coordinates
ini.MESHX = geo.MESHX
ini.MESHY = geo.MESHY
print ' +> writing header'
# Write header
ini.appendHeaderSLF()
# <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
# ~~~~ writes INI core ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
print ' +> setting variables'
# TIME and DATE extraction
slf2d.NDP3 = 3
slf2d.NPOIN2 = n
slf2d.NPOIN3 = n
slf2d.NELEM2 = e
slf2d.NELEM3 = e
slf2d.IPARAM = [1, 0, 0, 0, 0, 0, 0, 0, 0, 0]
#print ' +> Set SELAFIN mesh'
slf2d.MESHX = x
slf2d.MESHY = y
#print ' +> Set SELAFIN IPOBO'
junkIPOB = np.zeros(n - len(b))
junkIPOB = junkIPOB.astype(np.int16)
slf2d.IPOB2 = np.hstack((b, junkIPOB))
slf2d.IPOB3 = slf2d.IPOB2
#print ' +> Set SELAFIN IKLE'
slf2d.IKLE2 = ikle
slf2d.IKLE3 = ikle
#print ' +> Set SELAFIN times and cores'
# these two lists are empty after constructor is instantiated
slf2d.tags['cores'].append(0)
slf2d.tags['times'].append(0)
#slf2d.tags = { 'times':[0] } # time (sec)
#slf2d.DATETIME = sel.DATETIME
slf2d.DATETIME = [2015, 1, 1, 1, 1, 1]
#slf2d.tags = { 'cores':[long(0)] } # time frame
atm.NDP3 = slf.NDP3
atm.NPOIN2 = geo.NPOIN2
atm.NPOIN3 = geo.NPOIN2 * atm.NPLAN
atm.NELEM2 = geo.NELEM2
print ' +> setting connectivity'
if atm.NPLAN > 1:
atm.NELEM3 = geo.NELEM2 * (atm.NPLAN - 1)
atm.IKLE2 = geo.IKLE2
atm.IKLE3 = \
np.repeat(geo.NPOIN2*np.arange(atm.NPLAN-1),geo.NELEM2*atm.NDP3).reshape((geo.NELEM2*(atm.NPLAN-1),atm.NDP3)) + \
np.tile(np.add(np.tile(geo.IKLE2,2),np.repeat(geo.NPOIN2*np.arange(2),geo.NDP2)),(atm.NPLAN-1,1))
atm.IPOB2 = geo.IPOB2
atm.IPOB3 = np.ravel(
np.add(
np.repeat(geo.IPOB2,
atm.NPLAN).reshape((geo.NPOIN2, atm.NPLAN)),
geo.NPOIN2 * np.arange(atm.NPLAN)).T)
else:
atm.NELEM3 = geo.NELEM2
atm.IKLE2 = geo.IKLE2
atm.IKLE3 = geo.IKLE3
atm.IPOB2 = geo.IPOB2
atm.IPOB3 = geo.IPOB3
atm.IPARAM = [0, 0, 0, 0, 0, 0, atm.NPLAN, 0, 0, 0]
# Mesh coordinates
atm.MESHX = geo.MESHX
atm.MESHY = geo.MESHY
print ' +> writing header'
slf2d.NDP3 = 3
slf2d.NPOIN2 = n
slf2d.NPOIN3 = n
slf2d.NELEM2 = e
slf2d.NELEM3 = e
slf2d.IPARAM = [1, 0, 0, 0, 0, 0, 0, 0, 0, 0]
#print ' +> Set SELAFIN mesh'
slf2d.MESHX = x
slf2d.MESHY = y
#print ' +> Set SELAFIN IPOBO'
junkIPOB = np.zeros(n-len(b))
junkIPOB = junkIPOB.astype(np.int16)
slf2d.IPOB2 = np.hstack((b,junkIPOB))
slf2d.IPOB3 = slf2d.IPOB2
#print ' +> Set SELAFIN IKLE'
slf2d.IKLE2 = ikle
slf2d.IKLE3 = ikle
#print ' +> Set SELAFIN times and cores'
# these two lists are empty after constructor is instantiated
slf2d.tags['cores'].append(0)
slf2d.tags['times'].append(0)
#slf2d.tags = { 'times':[0] } # time (sec)
#slf2d.DATETIME = sel.DATETIME
slf2d.DATETIME = [2015, 1, 1, 1, 1, 1]
#slf2d.tags = { 'cores':[long(0)] } # time frame
