|
SWDatabase
|
|
SWDatabase
|
Variables | |
| tuple | fig_size = (12,6) |
| int | fig_resolution = 100 |
| tuple | folder_test = os.path.join('dir.test','TEST') |
| list | list_in = ['Get_delta','All'] |
| string | result = 'Get_delta' |
| string | title = 'Test Get_delta routine' |
| float | r0 = 1.0 |
| float | r1 = 2.5 |
| int | lat0 = 45 |
| int | lon0 = 35 |
| tuple | fieldline1 = module_fieldline.helicoid_z2(r0,r1,lat0,lon0,12,z0=4) |
| tuple | fieldline2 = module_fieldline.helicoid_z2(r0,r1,lat0,lon0,25,z0=4) |
| tuple | fig = plt.figure(num=1,figsize=fig_size,dpi=fig_resolution) |
| Plot fieldlines r-lat sub = fig.add_subplot(121, projection='polar') plot_common.fieldline2D(sub,[fieldline1],'blue','Fieldlines r-lat',proj='rlat') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([1.0*module_common.rsun2km]*1000),color='y') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([2.5*module_common.rsun2km]*1000),color='g') Plot fieldlines r-lon sub = fig.add_subplot(122, projection='polar') plot_common.fieldline2D(sub,[fieldline1],'blue','Fieldlines r-lon',proj='rlon') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([1.0*module_common.rsun2km]*1000),color='y') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([2.5*module_common.rsun2km]*1000),color='g') plt.show() plt.close() More... | |
| tuple | sub = fig.add_subplot(121) |
| tuple | f1 = sub.plot(x_1,y_1,'b',marker='x',label='Fieldline1') |
| tuple | f2 = sub.plot(x_2,y_2,'r',marker='x',label='Fieldline2') |
| list | f12 = [] |
| tuple | legend = sub.legend(handles=handles + [f12[0]],labels=labels + ['Nearest fieldline2 point']) |
| tuple test_module_fieldline.f1 = sub.plot(x_1,y_1,'b',marker='x',label='Fieldline1') |
| list test_module_fieldline.f12 = [] |
| tuple test_module_fieldline.f2 = sub.plot(x_2,y_2,'r',marker='x',label='Fieldline2') |
| tuple test_module_fieldline.fig = plt.figure(num=1,figsize=fig_size,dpi=fig_resolution) |
Plot fieldlines r-lat sub = fig.add_subplot(121, projection='polar') plot_common.fieldline2D(sub,[fieldline1],'blue','Fieldlines r-lat',proj='rlat') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([1.0*module_common.rsun2km]*1000),color='y') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([2.5*module_common.rsun2km]*1000),color='g') Plot fieldlines r-lon sub = fig.add_subplot(122, projection='polar') plot_common.fieldline2D(sub,[fieldline1],'blue','Fieldlines r-lon',proj='rlon') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([1.0*module_common.rsun2km]*1000),color='y') sub.plot(np.arange(0,2*np.pi,2*np.pi/1000),np.array([2.5*module_common.rsun2km]*1000),color='g') plt.show() plt.close()
| int test_module_fieldline.fig_resolution = 100 |
| tuple test_module_fieldline.fig_size = (12,6) |
| tuple test_module_fieldline.folder_test = os.path.join('dir.test','TEST') |
| int test_module_fieldline.lat0 = 45 |
| tuple test_module_fieldline.legend = sub.legend(handles=handles + [f12[0]],labels=labels + ['Nearest fieldline2 point']) |
| list test_module_fieldline.list_in = ['Get_delta','All'] |
| int test_module_fieldline.lon0 = 35 |
| float test_module_fieldline.r0 = 1.0 |
| float test_module_fieldline.r1 = 2.5 |
| string test_module_fieldline.result = 'Get_delta' |
| tuple test_module_fieldline.sub = fig.add_subplot(121) |
| string test_module_fieldline.title = 'Test Get_delta routine' |
1.8.5
