from __future__ import print_function
import cmor
import numpy

breq = "100000. 80000. 80000. 68000. 68000. 56000. 56000. 44000. 44000. 31000. 31000. 18000. 18000.  0.".split()

bnds_req = []
for b in breq:
    bnds_req.append(float(b))

bnds_req = numpy.array(bnds_req)
bnds_req.shape = (7, 2)

print( bnds_req[-2], bnds_req.shape)

levs = []

for b in bnds_req:
    levs.append((b[0] + b[1]) / 2.)

levs = numpy.array(levs)

print(levs)

cmor.setup(inpath="Tables",
           set_verbosity=cmor.CMOR_NORMAL,
           netcdf_file_action=cmor.CMOR_REPLACE,
           logfile=None)

cmor.dataset_json("Test/common_user_inputNOBOUNDS.json")

cmor.load_table("TestTables/python_test_table_A")

nlat = 90
dlat = 180 / nlat
nlon = 180
dlon = 360. / nlon

lats = numpy.arange(-90 + dlat / 2., 90, dlat)
lons = numpy.arange(0, 360., dlon)

ntime = 12

data = numpy.random.random((ntime, 7, nlat, nlon)) + 280.

itim = cmor.axis(
    table_entry='time',
    coord_vals=numpy.arange(
        0,
        ntime,
        1),
    units='month since 2008')
ilat = cmor.axis(
    table_entry='latitude',
    coord_vals=lats,
    units='degrees_north')
ilon = cmor.axis(
    table_entry='longitude',
    coord_vals=lons,
    units='degrees_east')
print ('so far', itim, ilat, ilon)
print (bnds_req)
ilev = cmor.axis(
    table_entry="pressure2",
    coord_vals=levs,
    cell_bounds=bnds_req,
    units="Pa")

iv = cmor.variable(
    table_entry='ta', axis_ids=numpy.array(
        (itim, ilev, ilat, ilon)), units='K')

cmor.write(iv, data)