test_pfss_cube2fieldline Namespace Reference

Variables
tuple	log_id = module_io.open_log(__file__)
int	nrand = 100
string	help_message
tuple	error_magtype = module_io.check_magtype(module_io.magtype)
tuple	folder_test = os.path.join('dir.test','TEST')
tuple	date_in = module_timespace.Time()
list	seed_points_ss = []
tuple	lon0 = random.uniform(0,360)
tuple	lat0 = random.uniform(-90,90)
tuple	point0 = module_timespace.Coordinate()
dictionary	mag_db = {}
	Seed points on a uniform grid nphi = 72 nthe = 36 phis = [ i*360/nphi for i in range(0,nphi) ] thes = [ 90-i*180/nthe for i in range(0,nthe) ] seed_points_ss = [] for i in range(0,nphi): for j in range(0,nthe): point = module_timespace.Coordinate() point.lon = phis[i] point.lat = thes[j] seed_points_ss.append(point) More...
dictionary	error_corona_pfss = {}
	write3d = True
tuple	mag_cube = interface_read_cube3D.read('CORFIELD',cube3D_path)
list	valid_norms = []
tuple	ifile = open(os.path.join(folder_test,'recap.txt'),'w')
string	message = 'Fieldline %03d: max(norm(delta)) = %12.5e km '
	compare_img = True
tuple	fig_size = (18,9)
int	fig_resolution = 100
list	fieldline1 = fieldlines_pfss[iline]
list	fieldline2 = fieldlines_cube[iline]
tuple	max_norm = np.max(norm)
tuple	fig = plt.figure(num=1,figsize=fig_size,dpi=fig_resolution)
tuple	sub = fig.add_subplot(231, projection='polar')
tuple	plots_fl1 = plot_common.fieldline2D(sub,[fieldline1],'blue','Fieldlines r-lat',proj='rlat')
tuple	plots_fl2 = plot_common.fieldline2D(sub,[fieldline2],'red' ,'Fieldlines r-lat',proj='rlat')
string	command = 'eog %s/test_iline*.png'

Variable Documentation

string test_pfss_cube2fieldline.command = 'eog %s/test_iline*.png'

test_pfss_cube2fieldline.compare_img = True

tuple test_pfss_cube2fieldline.date_in = module_timespace.Time()

tuple test_pfss_cube2fieldline.error_corona_pfss = {}

tuple test_pfss_cube2fieldline.error_magtype = module_io.check_magtype(module_io.magtype)

list test_pfss_cube2fieldline.fieldline1 = fieldlines_pfss[iline]

list test_pfss_cube2fieldline.fieldline2 = fieldlines_cube[iline]

tuple test_pfss_cube2fieldline.fig = plt.figure(num=1,figsize=fig_size,dpi=fig_resolution)

int test_pfss_cube2fieldline.fig_resolution = 100

tuple test_pfss_cube2fieldline.fig_size = (18,9)

tuple test_pfss_cube2fieldline.folder_test = os.path.join('dir.test','TEST')

string test_pfss_cube2fieldline.help_message

Initial value:

= """
Usage :\n
python dir.test/test_pfss_cube2fieldline.py -magtype magnetic_type -y year -m month -d day -H hour
[-h]                 : brief help
magnetic_type        : Type of magnetic data for PFSS coronal model. Default WSO.
year                 : year in UTC. Default today UTC year.
month                : month in UTC. Default today UTC month.
day                  : day in UTC. Default today UTC day.
hour                 : hour in UTC. Default 0.
"""

tuple test_pfss_cube2fieldline.ifile = open(os.path.join(folder_test,'recap.txt'),'w')

tuple test_pfss_cube2fieldline.lat0 = random.uniform(-90,90)

tuple test_pfss_cube2fieldline.log_id = module_io.open_log(__file__)

tuple test_pfss_cube2fieldline.lon0 = random.uniform(0,360)

tuple test_pfss_cube2fieldline.mag_cube = interface_read_cube3D.read('CORFIELD',cube3D_path)

tuple test_pfss_cube2fieldline.mag_db = {}

Seed points on a uniform grid nphi = 72 nthe = 36 phis = [ i*360/nphi for i in range(0,nphi) ] thes = [ 90-i*180/nthe for i in range(0,nthe) ] seed_points_ss = [] for i in range(0,nphi): for j in range(0,nthe): point = module_timespace.Coordinate() point.lon = phis[i] point.lat = thes[j] seed_points_ss.append(point)

tuple test_pfss_cube2fieldline.max_norm = np.max(norm)

string test_pfss_cube2fieldline.message = 'Fieldline %03d: max(norm(delta)) = %12.5e km '

int test_pfss_cube2fieldline.nrand = 100

tuple test_pfss_cube2fieldline.plots_fl1 = plot_common.fieldline2D(sub,[fieldline1],'blue','Fieldlines r-lat',proj='rlat')

tuple test_pfss_cube2fieldline.plots_fl2 = plot_common.fieldline2D(sub,[fieldline2],'red' ,'Fieldlines r-lat',proj='rlat')

tuple test_pfss_cube2fieldline.point0 = module_timespace.Coordinate()

list test_pfss_cube2fieldline.seed_points_ss = []

tuple test_pfss_cube2fieldline.sub = fig.add_subplot(231, projection='polar')

list test_pfss_cube2fieldline.valid_norms = []

test_pfss_cube2fieldline.write3d = True