Ejemplo n.º 1
0
def metis_graph2graph_xml(ifilename, ofilename):
    "Convert from Metis graph format to DOLFIN Graph XML."

    print "Converting from Metis graph format to DOLFIN Graph XML."

    # Open files
    ifile = open(ifilename, "r")
    ofile = open(ofilename, "w")

    # Read number of vertices and edges
    line = ifile.readline()
    if not line:
       _error("Empty file")

    (num_vertices, num_edges) = line.split()

    xml_writer.write_header_graph(ofile, "directed")
    xml_writer.write_header_vertices(ofile, int(num_vertices))

    for i in range(int(num_vertices)):
        line = ifile.readline()
        edges = line.split()
        xml_writer.write_graph_vertex(ofile, i, len(edges))

    xml_writer.write_footer_vertices(ofile)
    xml_writer.write_header_edges(ofile, 2*int(num_edges))

    # Step to beginning of file and skip header info
    ifile.seek(0)
    ifile.readline()
    for i in range(int(num_vertices)):
        print "vertex %g", i
        line = ifile.readline()
        edges = line.split()
        for e in edges:
            xml_writer.write_graph_edge(ofile, i, int(e))

    xml_writer.write_footer_edges(ofile)
    xml_writer.write_footer_graph(ofile)

    # Close files
    ifile.close();
    ofile.close();
Ejemplo n.º 2
0
def metis_graph2graph_xml(ifilename, ofilename):
    "Convert from Metis graph format to DOLFIN Graph XML."

    print "Converting from Metis graph format to DOLFIN Graph XML."

    # Open files
    ifile = open(ifilename, "r")
    ofile = open(ofilename, "w")

    # Read number of vertices and edges
    line = ifile.readline()
    if not line:
       _error("Empty file")

    (num_vertices, num_edges) = line.split()

    xml_writer.write_header_graph(ofile, "directed")
    xml_writer.write_header_vertices(ofile, int(num_vertices))

    for i in range(int(num_vertices)):
        line = ifile.readline()
        edges = line.split()
        xml_writer.write_graph_vertex(ofile, i, len(edges))

    xml_writer.write_footer_vertices(ofile)
    xml_writer.write_header_edges(ofile, 2*int(num_edges))

    # Step to beginning of file and skip header info
    ifile.seek(0)
    ifile.readline()
    for i in range(int(num_vertices)):
        print "vertex %g", i
        line = ifile.readline()
        edges = line.split()
        for e in edges:
            xml_writer.write_graph_edge(ofile, i, int(e))

    xml_writer.write_footer_edges(ofile)
    xml_writer.write_footer_graph(ofile)

    # Close files
    ifile.close();
    ofile.close();
Ejemplo n.º 3
0
def scotch_graph2graph_xml(ifilename, ofilename):
    "Convert from Scotch graph format to DOLFIN Graph XML."

    print "Converting from Scotch graph format to DOLFIN Graph XML."

    # Open files
    ifile = open(ifilename, "r")
    ofile = open(ofilename, "w")

    # Skip graph file version number
    ifile.readline()

    # Read number of vertices and edges
    line = ifile.readline()
    if not line:
       _error("Empty file")

    (num_vertices, num_edges) = line.split()

    # Read start index and numeric flag
    # Start index is 0 or 1 (C/Fortran)
    # Numeric flag is 3 bits where bit 1 enables vertex labels
    # bit 2 enables edge weights and bit 3 enables vertex weights

    line = ifile.readline()
    (start_index, numeric_flag) = line.split()

    # Handling not implented
    if not numeric_flag == "000":
       _error("Handling of scotch vertex labels, edge- and vertex weights not implemented")

    xml_writer.write_header_graph(ofile, "undirected")
    xml_writer.write_header_vertices(ofile, int(num_vertices))

    # Read vertices and edges, first number gives number of edges from this vertex (not used)
    for i in range(int(num_vertices)):
        line = ifile.readline()
        edges = line.split()
        xml_writer.write_graph_vertex(ofile, i, len(edges)-1)

    xml_writer.write_footer_vertices(ofile)
    xml_writer.write_header_edges(ofile, int(num_edges))


    # Step to beginning of file and skip header info
    ifile.seek(0)
    ifile.readline()
    ifile.readline()
    ifile.readline()
    for i in range(int(num_vertices)):
        line = ifile.readline()

        edges = line.split()
        for j in range(1, len(edges)):
            xml_writer.write_graph_edge(ofile, i, int(edges[j]))

    xml_writer.write_footer_edges(ofile)
    xml_writer.write_footer_graph(ofile)

    # Close files
    ifile.close();
    ofile.close();
Ejemplo n.º 4
0
def scotch_graph2graph_xml(ifilename, ofilename):
    "Convert from Scotch graph format to DOLFIN Graph XML."

    print "Converting from Scotch graph format to DOLFIN Graph XML."

    # Open files
    ifile = open(ifilename, "r")
    ofile = open(ofilename, "w")

    # Skip graph file version number
    ifile.readline()

    # Read number of vertices and edges
    line = ifile.readline()
    if not line:
       _error("Empty file")

    (num_vertices, num_edges) = line.split()

    # Read start index and numeric flag
    # Start index is 0 or 1 (C/Fortran)
    # Numeric flag is 3 bits where bit 1 enables vertex labels
    # bit 2 enables edge weights and bit 3 enables vertex weights

    line = ifile.readline()
    (start_index, numeric_flag) = line.split()

    # Handling not implented
    if not numeric_flag == "000":
       _error("Handling of scotch vertex labels, edge- and vertex weights not implemented")

    xml_writer.write_header_graph(ofile, "undirected")
    xml_writer.write_header_vertices(ofile, int(num_vertices))

    # Read vertices and edges, first number gives number of edges from this vertex (not used)
    for i in range(int(num_vertices)):
        line = ifile.readline()
        edges = line.split()
        xml_writer.write_graph_vertex(ofile, i, len(edges)-1)

    xml_writer.write_footer_vertices(ofile)
    xml_writer.write_header_edges(ofile, int(num_edges))


    # Step to beginning of file and skip header info
    ifile.seek(0)
    ifile.readline()
    ifile.readline()
    ifile.readline()
    for i in range(int(num_vertices)):
        line = ifile.readline()

        edges = line.split()
        for j in range(1, len(edges)):
            xml_writer.write_graph_edge(ofile, i, int(edges[j]))

    xml_writer.write_footer_edges(ofile)
    xml_writer.write_footer_graph(ofile)

    # Close files
    ifile.close();
    ofile.close();