def do_conversion(topology_def, args):
"""
Convert the topology
:param dict topology_def: Dict containing topology file and snapshot bool
"""
# Create a new instance of the the Converter
gns3_conv = Converter(topology_def['file'], args.debug)
# Read the old topology
old_top = gns3_conv.read_topology()
new_top = JSONTopology()
# Process the sections
(topology) = gns3_conv.process_topology(old_top)
# Generate the nodes
new_top.nodes = gns3_conv.generate_nodes(topology)
# Generate the links
new_top.links = gns3_conv.generate_links(new_top.nodes)
new_top.notes = gns3_conv.generate_notes(topology['artwork']['NOTE'])
new_top.shapes = gns3_conv.generate_shapes(topology['artwork']['SHAPE'])
new_top.images = gns3_conv.generate_images(topology['artwork']['PIXMAP'])
# Enter topology name
new_top.name = name(args)
# Save the new topology
save(args, gns3_conv, new_top, topology_def['snapshot'])
def do_conversion(topology_def, args):
"""
Convert the topology
:param dict topology_def: Dict containing topology file and snapshot bool
"""
# Create a new instance of the the Converter
gns3_conv = Converter(topology_def['file'], args.debug)
# Read the old topology
old_top = gns3_conv.read_topology()
new_top = JSONTopology()
# Process the sections
(topology) = gns3_conv.process_topology(old_top)
# Generate the nodes
new_top.nodes = gns3_conv.generate_nodes(topology)
# Generate the links
new_top.links = gns3_conv.generate_links(new_top.nodes)
new_top.notes = gns3_conv.generate_notes(topology['artwork']['NOTE'])
new_top.shapes = gns3_conv.generate_shapes(topology['artwork']['SHAPE'])
new_top.images = gns3_conv.generate_images(topology['artwork']['PIXMAP'])
# Enter topology name
new_top.name = name(args)
# Save the new topology
save(args, gns3_conv, new_top, topology_def['snapshot'])
def do_conversion(topology_def,
topology_name,
output_dir=None,
debug=False,
quiet=False):
"""
Convert the topology
:param dict topology_def: Dict containing topology file and snapshot bool.
For example:
``{'file': filename, 'snapshot': False}``
:param str topology_name: The name of the topology
:param str output_dir: The directory in which to output the topology.
(Default: None)
:param bool debug: Enable debugging (Default: False)
"""
# Create a new instance of the the Converter
gns3_conv = Converter(topology_def['file'], debug)
# Read the old topology
old_top = gns3_conv.read_topology()
new_top = JSONTopology()
# Process the sections
(topology) = gns3_conv.process_topology(old_top)
# Generate the nodes
new_top.nodes = gns3_conv.generate_nodes(topology)
# Generate the links
new_top.links = gns3_conv.generate_links(new_top.nodes)
new_top.notes = gns3_conv.generate_notes(topology['artwork']['NOTE'])
new_top.shapes = gns3_conv.generate_shapes(topology['artwork']['SHAPE'])
new_top.images = gns3_conv.generate_images(topology['artwork']['PIXMAP'])
# Enter topology name
new_top.name = topology_name
# Save the new topology
save(output_dir, gns3_conv, new_top, topology_def['snapshot'], quiet)
def do_conversion(topology_def, topology_name, output_dir=None, debug=False,
quiet=False):
"""
Convert the topology
:param dict topology_def: Dict containing topology file and snapshot bool.
For example:
``{'file': filename, 'snapshot': False}``
:param str topology_name: The name of the topology
:param str output_dir: The directory in which to output the topology.
(Default: None)
:param bool debug: Enable debugging (Default: False)
"""
# Create a new instance of the the Converter
gns3_conv = Converter(topology_def['file'], debug)
# Read the old topology
old_top = gns3_conv.read_topology()
new_top = JSONTopology()
# Process the sections
(topology) = gns3_conv.process_topology(old_top)
# Generate the nodes
new_top.nodes = gns3_conv.generate_nodes(topology)
# Generate the links
new_top.links = gns3_conv.generate_links(new_top.nodes)
new_top.notes = gns3_conv.generate_notes(topology['artwork']['NOTE'])
new_top.shapes = gns3_conv.generate_shapes(topology['artwork']['SHAPE'])
new_top.images = gns3_conv.generate_images(topology['artwork']['PIXMAP'])
# Enter topology name
new_top.name = topology_name
# Save the new topology
save(output_dir, gns3_conv, new_top, topology_def['snapshot'], quiet)