def record_details(self):
tline = self.testline
i0 = 5 + tline.index('find(')
tline = tline[i0:-1]
checks = tline.split('|')
parts = []
for check in checks:
check = check.strip()
if check.startswith('('):
check = check[1:-1].strip()
part = Bunch(check=check)
LHS, RHS = check.split('>=')
part.tolerance = eval(RHS)
LHS = LHS.strip()[4:-1] # chop off abs(...)
target, calculated = LHS.split('-')
part.checkval = eval(target)
part.val = eval(calculated)
parts.append(part)
self.details = parts
def record_details(self):
tline = self.testline
i0 = 5 + tline.index('find(')
tline = tline[i0:-1]
checks = tline.split('|')
parts = []
for check in checks:
check = check.strip()
if check.startswith('('):
check = check[1:-1].strip()
part = Bunch(check=check)
LHS, RHS = check.split('>=')
part.tolerance = eval(RHS)
LHS = LHS.strip()[4:-1] # chop off abs(...)
target, calculated = LHS.split('-')
part.checkval = eval(target)
part.val = eval(calculated)
parts.append(part)
self.details = parts
# Bjørn Ådlandsvik <*****@*****.**>
# 2011-03-03
import os
import unittest
import functools # Requires python 2.5.
import numpy as np
import gsw
from gsw.utilities import Bunch
# Read data file with check value profiles.
datadir = os.path.join(os.path.dirname(gsw.utilities.__file__), 'data')
cv = Bunch(np.load(os.path.join(datadir, 'gsw_cv_v3_0.npz')))
cf = Bunch(np.load(os.path.join(datadir, 'gsw_cf.npz')))
# Main dictionary of functions with arguments. Could perhaps be auto-generated.
function_arguments = dict(
# absolute_salinity_sstar_ct.py
SA_from_SP=('SP', 'p', 'long', 'lat'), # uses SAAR
# Sstar_from_SP TODO
CT_from_t=('SA', 't', 'p'),
#
# thermodynamics_from_t.py
rho_t_exact=('SA', 't', 'p'),
pot_rho_t_exact=('SA', 't', 'p', 'pr'),
sigma0_pt0_exact=('SA', 'pt0'),
alpha_wrt_CT_t_exact=('SA', 't', 'p'),
alpha_wrt_pt_t_exact=('SA', 't', 'p'),
dest='mfiledir',
default="gsw_matlab_v3_04",
help='location of gsw_check_functions.m')
parser.add_argument('-v',
'--verbose',
action='store_true',
help='print output mismatch arrays')
parser.add_argument('--find', help='run functions with this substring')
args = parser.parse_args()
mfile = os.path.join(args.mfiledir, "gsw_check_functions.m")
checks = parse_check_functions(mfile)
datadir = os.path.join(os.path.dirname(gsw.utilities.__file__), 'data')
cv = Bunch(np.load(os.path.join(datadir, 'gsw_cv_v3_0.npz')))
cf = Bunch()
if args.find:
checks = [c for c in checks if args.find in c.runline]
for fc in checks:
fc.run()
passes = [f for f in checks if f.passed]
failures = [f for f in checks if f.passed is False]
run_problems = [f for f in checks if f.exception is not None]
etypes = [NameError, UnboundLocalError, TypeError, AttributeError]
ex_dict = dict()
from __future__ import print_function
import os
import sys
import unittest
import functools
import numpy as np
import gsw
from gsw.utilities import Bunch
# Read data file with check value profiles
datadir = os.path.join(os.path.dirname(gsw.utilities.__file__), 'data')
fname = 'gsw_cv_v3_0.npz'
cv = Bunch(np.load(os.path.join(datadir, fname)))
cf = Bunch(np.load(os.path.join(datadir, 'gsw_cf.npz')))
# derivatives.py
#CT_first_derivatives=('SA', 'pt'), # NOTE: TI, BUG
#CT_second_derivatives=('SA', 'pt'), # NOTE: TI FIXME BUG
#enthalpy_first_derivatives=('SA', 'CT', 'p'), FIXME name match
#enthalpy_second_derivatives=('SA', 'CT', 'p'), FIXME name match
#entropy_first_derivatives=('SA', 'CT'), #NOTE: TI FIXME name match
#entropy_second_derivatives=('SA', 'pt'), #NOTE: TI FIXME name match
#pt_first_derivatives':, #NOTE: TI FIXME name match
#pt_second_derivatives= #NOTE: TI FIXME name match
# Make aliases for some values to be used as arguments
cv.entropy_chck_cast = cv.entropy_from_CT
cv.Abs_Pressure_from_p_chck_cast = cv.Abs_Pressure_from_p
