def test_test_significant_digits_ceil_minus(self):
assert fu.significant_digits( (-1.234,0.012), mode=0 ) == -1.23
assert fu.significant_digits( (-1.234,10.23), mode=0 ) == -0.0
assert fu.significant_digits( (-1.234,1.234), mode=0 ) == -1.0
assert fu.significant_digits( (-0.000145,0.000123), mode=0 ) == -0.0001
assert fu.significant_digits( (-0.000145,0.000000000123), mode=0 ) == -0.000145
def test_test_significant_digits_round_plus(self):
assert fu.significant_digits( (1.234,0.012), mode=1 ) == 1.23
assert fu.significant_digits( (1.234,10.23), mode=1 ) == 0.0
assert fu.significant_digits( (1.234,1.234), mode=1 ) == 1.0
assert fu.significant_digits( (0.000145,0.000123), mode=1 ) == 0.0001
assert fu.significant_digits( (0.000145,0.000000000123), mode=1 ) == 0.000145
def test_test_significant_digits_floor_minus(self):
assert fu.significant_digits( (-1.234,0.012), mode=2 ) == -1.24
assert fu.significant_digits( (-1.234,10.23), mode=2 ) == -10.0
assert fu.significant_digits( (-1.234,1.234), mode=2 ) == -2.0
assert fu.significant_digits( (-0.000145,0.000123), mode=2 ) == -0.0002
assert fu.significant_digits( (-0.000145,0.000000000123), mode=2 ) == -0.000145
def test_test_significant_digits_ceil_plus(self):
assert fu.significant_digits( (1.234,0.012), mode=0 ) == 1.24
assert fu.significant_digits( (1.234,10.23), mode=0 ) == 10.0
assert fu.significant_digits( (1.234,1.234), mode=0 ) == 2.0
assert fu.significant_digits( (0.000145,0.000123), mode=0 ) == 0.0002
assert fu.significant_digits( (0.000145,0.000000000123), mode=0 ) == 0.000145
for num, fish in enumerate(fishers_temp.get_fisher_list()):
#output fisher matrices again
#fish.save_to_file(outroot+'__Fisher_Out_'+str(num)+"-"+fish.name, simple_header=True)
print(fish.name)
fishpars=fish.get_param_names()
print("parameter names")
print(str(fishpars))
# get the bounds:
Bounds_68 = list( fish.get_confidence_bounds( 0.683 ) )
Bounds_95 = list( fish.get_confidence_bounds( 0.950 ) )
Bounds_99 = list( fish.get_confidence_bounds( 0.997 ) )
# get the fiducial:
fiducial = []
for num, par in enumerate(fish.get_param_fiducial()):
fiducial.append( fu.significant_digits( (par, Bounds_68[num]), mode=1 ) )
# get the names:
if use_latex:
parameter_names_latex = copy.deepcopy(fish.get_param_names_latex())
else:
parameter_names = copy.deepcopy(fish.get_param_names())
# do the printing:
if use_latex:
print_table = []
for par,fid,bound in zip( parameter_names_latex,fiducial,Bounds_68 ):
cent=100
psign='\%'
if isclose(fid, 0.0, rel_tol=1e-6, abs_tol=1e-6):
fid = 1
cent = 1
psign=''
#output fisher matrices again
#fish.save_to_file(outroot+'__Fisher_Out_'+str(num)+"-"+fish.name, simple_header=True)
print(fish.name)
fishpars = fish.get_param_names()
print("parameter names")
print(str(fishpars))
# get the bounds:
Bounds_68 = list(fish.get_confidence_bounds(0.683))
Bounds_95 = list(fish.get_confidence_bounds(0.950))
Bounds_99 = list(fish.get_confidence_bounds(0.997))
# get the fiducial:
fiducial = []
for num, par in enumerate(fish.get_param_fiducial()):
fiducial.append(
fu.significant_digits((par, Bounds_68[num]), mode=1))
# get the names:
if use_latex:
parameter_names_latex = copy.deepcopy(
fish.get_param_names_latex())
else:
parameter_names = copy.deepcopy(fish.get_param_names())
# do the printing:
if use_latex:
print_table = []
for par, fid, bound in zip(parameter_names_latex, fiducial,
Bounds_68):
cent = 100
psign = '\%'
if isclose(fid, 0.0, rel_tol=1e-6, abs_tol=1e-6):
fid = 1
fishers_temp = fishers
if eliminate is not False:
fishers_temp = fishers_temp.reshuffle( params=params )
elif params is not None:
fishers_temp = fishers_temp.marginalise( params=params )
for num, fish in enumerate(fishers_temp.get_fisher_list()):
# get the bounds:
Bounds_68 = list( fu.v_nice_number( fish.get_confidence_bounds( 0.680 ), mode=1 ) )
Bounds_95 = list( fu.v_nice_number( fish.get_confidence_bounds( 0.950 ), mode=1 ) )
Bounds_99 = list( fu.v_nice_number( fish.get_confidence_bounds( 0.997 ), mode=1 ) )
# get the fiducial:
fiducial = []
for num, par in enumerate(fish.get_param_fiducial()):
fiducial.append( fu.significant_digits( (par, Bounds_68[num]), mode=1 ) )
# get the names:
if use_latex:
parameter_names_latex = copy.deepcopy(fish.get_param_names_latex())
else:
parameter_names = copy.deepcopy(fish.get_param_names())
# do the printing:
if use_latex:
print_table = []
for par,fid,bound in zip( parameter_names_latex,fiducial,Bounds_68 ):
print_table.append( '$'+str(par)+' = '+str(fid)+' \pm '+str(bound)+'$' )
if len(print_table)%latex_num_col == 0:
table_length = len(print_table)/latex_num_col
else:
table_length = len(print_table)/latex_num_col +1
print_table = fu.grouper( table_length, print_table,fillvalue='' )
def test_test_significant_digits_round_plus(self):
assert fu.significant_digits( (1.234,0.012), mode=1 ) == 1.23
assert fu.significant_digits( (1.234,10.23), mode=1 ) == 0.0
assert fu.significant_digits( (1.234,1.234), mode=1 ) == 1.0
assert fu.significant_digits( (0.000145,0.000123), mode=1 ) == 0.0001
assert fu.significant_digits( (0.000145,0.000000000123), mode=1 ) == 0.000145
def test_test_significant_digits_ceil_minus(self):
assert fu.significant_digits( (-1.234,0.012), mode=0 ) == -1.23
assert fu.significant_digits( (-1.234,10.23), mode=0 ) == -0.0
assert fu.significant_digits( (-1.234,1.234), mode=0 ) == -1.0
assert fu.significant_digits( (-0.000145,0.000123), mode=0 ) == -0.0001
assert fu.significant_digits( (-0.000145,0.000000000123), mode=0 ) == -0.000145
def test_test_significant_digits_ceil_plus(self):
assert fu.significant_digits( (1.234,0.012), mode=0 ) == 1.24
assert fu.significant_digits( (1.234,10.23), mode=0 ) == 10.0
assert fu.significant_digits( (1.234,1.234), mode=0 ) == 2.0
assert fu.significant_digits( (0.000145,0.000123), mode=0 ) == 0.0002
assert fu.significant_digits( (0.000145,0.000000000123), mode=0 ) == 0.000145
def test_test_significant_digits_floor_minus(self):
assert fu.significant_digits( (-1.234,0.012), mode=2 ) == -1.24
assert fu.significant_digits( (-1.234,10.23), mode=2 ) == -10.0
assert fu.significant_digits( (-1.234,1.234), mode=2 ) == -2.0
assert fu.significant_digits( (-0.000145,0.000123), mode=2 ) == -0.0002
assert fu.significant_digits( (-0.000145,0.000000000123), mode=2 ) == -0.000145
