corfield_read_cube3D Namespace Reference

Variables
tuple	fig_size = (20,15)
int	fig_resolution = 100
string	axis_name_y = 'Latitude'
string	axis_name_x = 'Carrington Longitude'
int	axis_size = 10
string	axis_color = 'k'
int	dphi = 40
list	xtick_loc = [ i*dphi for i in range(0,int(360./dphi)+1) ]
list	xtick_label = [ str(int(xtick_loc[i])) for i in range(0,len(xtick_loc)) ]
list	ytick_loc = [ -90,-80,-60,-40,-20,0,20,40,60,80,90 ]
list	ytick_label = [ str(int(ytick_loc[i])) for i in range(0,len(ytick_loc)) ]
list	seed_points_ss = [module_timespace.Coordinate()]
tuple	time_ref = module_timespace.Time()
tuple	folder_test = os.path.join('dir.test','TEST_CORFIELD')
tuple	fig = plt.figure(num=1,figsize=fig_size,dpi=fig_resolution)
tuple	magmap_path = interface_read_map2D.ncar2map(module_io.magmap_type,time_ref.ncar)
	write3d = True
tuple	ifile = open(bssmap_path)
tuple	map2D_corfield = ascii_map2D.read(ifile)
tuple	cube3D_corfield = interface_read_cube3D.read('corfield',cube3D_path)
tuple	sub = plt.subplot(221)
tuple	hcs_map = module_plot.plot_hcs(sub,map2D_corfield,[0.],['HCS map'],'red',linestyle='solid')
tuple	hcs_cub = module_plot.plot_hcs(sub,cube3D_corfield,[0.],['HCS cube'],'green')
tuple	img = plot_common.map2D(sub,'DIFF',map2D_corfield,0)
tuple	eq = plot_common.equator(sub,'black')

Variable Documentation

string corfield_read_cube3D.axis_color = 'k'

string corfield_read_cube3D.axis_name_x = 'Carrington Longitude'

string corfield_read_cube3D.axis_name_y = 'Latitude'

int corfield_read_cube3D.axis_size = 10

tuple corfield_read_cube3D.cube3D_corfield = interface_read_cube3D.read('corfield',cube3D_path)

int corfield_read_cube3D.dphi = 40

tuple corfield_read_cube3D.eq = plot_common.equator(sub,'black')

tuple corfield_read_cube3D.fig = plt.figure(num=1,figsize=fig_size,dpi=fig_resolution)

int corfield_read_cube3D.fig_resolution = 100

tuple corfield_read_cube3D.fig_size = (20,15)

tuple corfield_read_cube3D.folder_test = os.path.join('dir.test','TEST_CORFIELD')

tuple corfield_read_cube3D.hcs_cub = module_plot.plot_hcs(sub,cube3D_corfield,[0.],['HCS cube'],'green')

tuple corfield_read_cube3D.hcs_map = module_plot.plot_hcs(sub,map2D_corfield,[0.],['HCS map'],'red',linestyle='solid')

tuple corfield_read_cube3D.ifile = open(bssmap_path)

tuple corfield_read_cube3D.img = plot_common.map2D(sub,'DIFF',map2D_corfield,0)

tuple corfield_read_cube3D.magmap_path = interface_read_map2D.ncar2map(module_io.magmap_type,time_ref.ncar)

tuple corfield_read_cube3D.map2D_corfield = ascii_map2D.read(ifile)

list corfield_read_cube3D.seed_points_ss = [module_timespace.Coordinate()]

tuple corfield_read_cube3D.sub = plt.subplot(221)

tuple corfield_read_cube3D.time_ref = module_timespace.Time()

corfield_read_cube3D.write3d = True

list corfield_read_cube3D.xtick_label = [ str(int(xtick_loc[i])) for i in range(0,len(xtick_loc)) ]

list corfield_read_cube3D.xtick_loc = [ i*dphi for i in range(0,int(360./dphi)+1) ]

list corfield_read_cube3D.ytick_label = [ str(int(ytick_loc[i])) for i in range(0,len(ytick_loc)) ]

list corfield_read_cube3D.ytick_loc = [ -90,-80,-60,-40,-20,0,20,40,60,80,90 ]