def test_grid_map_cats(self):
"""
Test a grid map - read and write out
"""
# triangle grid
gcm3 = CyGridMap()
grid_map_file = get_datafile(os.path.join(cur_dir, "BigCombinedwMap.cur"))
gcm3.text_read(grid_map_file)
topology_file = os.path.join(cur_dir, "BigCombinedTop.dat")
gcm3.export_topology(topology_file)
def test_grid_map_cats(self, dump):
"""
Test a grid map - read and write out
"""
# triangle grid
gcm3 = CyGridMap()
grid_map_file = testdata['GridMap']['BigCombinedwMap']
gcm3.text_read(grid_map_file)
topology_file = os.path.join(dump, 'BigCombinedTop.dat')
gcm3.export_topology(topology_file)
def test_grid_map_tri(self, dump):
"""
Test a grid map - read and write out
"""
# triangle grid
gcm2 = CyGridMap()
grid_map_file = testdata['GridCurrentMover']['curr_tri']
gcm2.text_read(grid_map_file)
# topology_file = os.path.join( cur_dir, 'chesbay_top.dat')
# self.gcm2.export_topology(topology_file)
netcdf_file = os.path.join(dump, 'ChesBayTop.nc')
gcm2.save_netcdf(netcdf_file)
def test_grid_map_tri(self):
"""
Test a grid map - read and write out
"""
# triangle grid
gcm2 = CyGridMap()
grid_map_file = get_datafile(os.path.join(cur_dir, "ChesBay.nc"))
gcm2.text_read(grid_map_file)
# topology_file = os.path.join( cur_dir, 'chesbay_top.dat')
# self.gcm2.export_topology(topology_file)
netcdf_file = os.path.join(cur_dir, "ChesBayTop.nc")
gcm2.save_netcdf(netcdf_file)
def test_grid_map_curv(self, dump):
"""
Test a grid map - read and write out
"""
# curvilinear grid
gcm1 = CyGridMap()
grid_map_file = testdata['GridMap']['curr']
gcm1.text_read(grid_map_file)
# topology_file = os.path.join(cur_dir, 'ny_cg_top.dat')
# self.gcm.export_topology(topology_file)
# self.gcm.save_netcdf(netcdf_file)
netcdf_file = os.path.join(dump, 'ny_cg_top.nc')
gcm1.save_netcdf(netcdf_file)
def test_grid_map_curv(self):
"""
Test a grid map - read and write out
"""
# curvilinear grid
gcm1 = CyGridMap()
grid_map_file = get_datafile(os.path.join(cur_dir, "ny_cg.nc"))
gcm1.text_read(grid_map_file)
# topology_file = os.path.join(cur_dir, 'ny_cg_top.dat')
# self.gcm.export_topology(topology_file)
# self.gcm.save_netcdf(netcdf_file)
netcdf_file = os.path.join(cur_dir, "ny_cg_top.nc")
gcm1.save_netcdf(netcdf_file)
def test_grid_map_cats(self, dump_folder):
"""
Test a grid map - read and write out
"""
# triangle grid
gcm3 = CyGridMap()
grid_map_file = testdata['GridMap']['BigCombinedwMap']
gcm3.text_read(grid_map_file)
topology_file = os.path.join(dump_folder, 'BigCombinedTop.dat')
gcm3.export_topology(topology_file)
def test_grid_map_tri(self, dump_folder):
"""
Test a grid map - read and write out
"""
# triangle grid
gcm2 = CyGridMap()
grid_map_file = testdata['GridCurrentMover']['curr_tri']
gcm2.text_read(grid_map_file)
# topology_file = os.path.join( cur_dir, 'chesbay_top.dat')
# self.gcm2.export_topology(topology_file)
netcdf_file = os.path.join(dump_folder, 'ChesBayTop.nc')
gcm2.save_netcdf(netcdf_file)
def test_grid_map_curv(self, dump_folder):
"""
Test a grid map - read and write out
"""
# curvilinear grid
gcm1 = CyGridMap()
grid_map_file = testdata['GridMap']['curr']
gcm1.text_read(grid_map_file)
# topology_file = os.path.join(cur_dir, 'ny_cg_top.dat')
# self.gcm.export_topology(topology_file)
# self.gcm.save_netcdf(netcdf_file)
netcdf_file = os.path.join(dump_folder, 'ny_cg_top.nc')
gcm1.save_netcdf(netcdf_file)