test_cube2fieldline Namespace Reference

Variables
tuple	log_id = module_io.open_log()
string	scraft = 'PSP'
tuple	test_folder = os.path.join('dir.test','TEST_CORONA')
list	positions_ss = [ module_timespace.Coordinate() ]
int	nphi = 72
	Seed points as gaussian cloud seed_points_ss = module_connectivity.point_distribution('GAUSSIAN',module_connectivity.nproba,positions_ss[0]) First point is positions_ss initial point (just for checking) seed_points_ss[0] = positions_ss[0]. More...
int	nthe = 36
list	phis = [ i*360/nphi for i in range(0,nphi) ]
list	thes = [ 90-i*180/nthe for i in range(0,nthe) ]
list	seed_points_ss = []
tuple	point = module_timespace.Coordinate()
dictionary	mag_db = {}
dictionary	fieldlines = {}
dictionary	bss_data = {}
dictionary	error_corona = {}
	write3d = False
tuple	data_layer_hcs = module_plot.plot_hcs(sub,bss_data,[0.],[''],module_plot.color_hcs)
tuple	ifile = open(os.path.join(test_folder,'hcs_%s.dat'%module_io.magtype.lower()),'w')
list	data = data_layer_hcs.allsegs[0]
tuple	check_fieldlines = module_fieldline.check_fieldline(fieldlines)
list	fieldlines_old = fieldlines[:]
tuple	footpoints = module_fieldline.get_footpoint(fieldlines,loc='last')
tuple	headpoints = module_fieldline.get_footpoint(fieldlines,loc='first')
list	r = fieldlines[i]
tuple	fieldlines_open = module_fieldline.open_fieldline(fieldlines)
tuple	fieldlines_closed = module_fieldline.closed_fieldline(fieldlines)

Variable Documentation

dictionary test_cube2fieldline.bss_data = {}

tuple test_cube2fieldline.check_fieldlines = module_fieldline.check_fieldline(fieldlines)

list test_cube2fieldline.data = data_layer_hcs.allsegs[0]

tuple test_cube2fieldline.data_layer_hcs = module_plot.plot_hcs(sub,bss_data,[0.],[''],module_plot.color_hcs)

tuple test_cube2fieldline.error_corona = {}

list test_cube2fieldline.fieldlines = {}

tuple test_cube2fieldline.fieldlines_closed = module_fieldline.closed_fieldline(fieldlines)

list test_cube2fieldline.fieldlines_old = fieldlines[:]

tuple test_cube2fieldline.fieldlines_open = module_fieldline.open_fieldline(fieldlines)

tuple test_cube2fieldline.footpoints = module_fieldline.get_footpoint(fieldlines,loc='last')

tuple test_cube2fieldline.headpoints = module_fieldline.get_footpoint(fieldlines,loc='first')

tuple test_cube2fieldline.ifile = open(os.path.join(test_folder,'hcs_%s.dat'%module_io.magtype.lower()),'w')

tuple test_cube2fieldline.log_id = module_io.open_log()

dictionary test_cube2fieldline.mag_db = {}

int test_cube2fieldline.nphi = 72

Seed points as gaussian cloud seed_points_ss = module_connectivity.point_distribution('GAUSSIAN',module_connectivity.nproba,positions_ss[0]) First point is positions_ss initial point (just for checking) seed_points_ss[0] = positions_ss[0].

int test_cube2fieldline.nthe = 36

list test_cube2fieldline.phis = [ i*360/nphi for i in range(0,nphi) ]

tuple test_cube2fieldline.point = module_timespace.Coordinate()

list test_cube2fieldline.positions_ss = [ module_timespace.Coordinate() ]

list test_cube2fieldline.r = fieldlines[i]

string test_cube2fieldline.scraft = 'PSP'

list test_cube2fieldline.seed_points_ss = []

tuple test_cube2fieldline.test_folder = os.path.join('dir.test','TEST_CORONA')

list test_cube2fieldline.thes = [ 90-i*180/nthe for i in range(0,nthe) ]

test_cube2fieldline.write3d = False