示例#1
0
文件: demo.py 项目: wyl8899/asciidag
def main():
    graph = Graph()

    root = Node('root')
    grandpa = Node('grandpa', parents=[root])
    tips = [
        Node('child',
             parents=[
                 Node('mom',
                      parents=[
                          Node('grandma',
                               parents=[
                                   Node('greatgrandma', parents=[]),
                               ]),
                          grandpa,
                      ]),
                 Node('dad',
                      parents=[
                          Node('bill',
                               parents=[
                                   Node('martin'),
                                   Node('james'),
                                   Node('paul'),
                                   Node('jon'),
                               ])
                      ]),
                 Node('stepdad', parents=[grandpa]),
             ]),
        Node('foo', [Node('bar')]),
    ]

    graph.show_nodes(tips)
示例#2
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def main():
    """Run a simple demo of the package's functionality."""
    # start-after
    from asciidag.graph import Graph
    from asciidag.node import Node

    graph = Graph()

    root = Node('root')
    grandpa = Node('grandpa', parents=[root])
    tips = [
        Node('child', parents=[
            Node('mom', parents=[
                Node('grandma', parents=[
                    Node('greatgrandma', parents=[]),
                ]),
                grandpa,
            ]),
            Node('dad', parents=[
                Node('bill', parents=[
                    Node('martin'),
                    Node('james'),
                    Node('paul'),
                    Node('jon'),
                ])]),
            Node('stepdad', parents=[grandpa]),
        ]),
        Node('foo', [Node('bar')]),
    ]

    graph.show_nodes(tips)
示例#3
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 def display(self) -> str:
     with tempfile.NamedTemporaryFile(mode='w+', delete=False) as temp:
         graph = Graph(fh=temp)
         nodes = sorted(self.get_nodes(), key=lambda n: n.item)
         graph.show_nodes(nodes)
             
     with open(temp.name) as f:
         f.seek(0)
         string = "".join(f.readlines())
             
     return string
示例#4
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def test_linear(simple_nodes, capfd):
    graph = Graph(use_color=False)
    graph.show_nodes(simple_nodes)
    verify_out(
        capfd, r"""* Second
* sixth
* fifth
* fourth
* third
* second
* initial
""")
示例#5
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def test_branched(branched_nodes, capfd):
    graph = Graph(use_color=False)
    graph.show_nodes(branched_nodes)
    verify_out(
        capfd, r"""*   Merge branch 'side'
|\
| * side-2
| * side-1
* | Second
* | sixth
* | fifth
* | fourth
|/
* third
* second
* initial""")
示例#6
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def test_tangled(tangled_nodes, capfd):
    """Test the complex set of nodes."""
    graph = Graph(use_color=False)
    graph.show_nodes(tangled_nodes)
    verify_out(
        capfd, r"""*   Merge tag 'reach'
|\
| \
|  \
*-. \   Merge tags 'octopus-a' and 'octopus-b'
|\ \ \
* | | | seventh
| | * | octopus-b
| |/ /
|/| |
| * | octopus-a
|/ /
| * reach
|/
*   Merge branch 'tangle'
|\
| *   Merge branch 'side' (early part) into tangle
| |\
| * \   Merge branch 'master' (early part) into tangle
| |\ \
| * | | tangle-a
* | | |   Merge branch 'side'
|\ \ \ \
| * | | | side-2
| | |_|/
| |/| |
| * | | side-1
* | | | Second
* | | | sixth
| |_|/
|/| |
* | | fifth
* | | fourth
|/ /
* | third
|/
* second
* initial""")
示例#7
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def ascii_dag(graph: nx.DiGraph,
              key: Callable[[str], str] = lambda x: x) -> str:
    """
    Render the given DAG as a string, showing dependencies
    """
    outfile = io.StringIO()
    ascii_graph = AsciiDagGraph(outfile)

    nodes = {}
    tips = []

    for node in reversed(list(nx.topological_sort(graph))):
        parent_nodes = [nodes[path] for path in graph.succ[node]]
        ascii_node = nodes[node] = AsciiDagNode(key(node),
                                                parents=parent_nodes)
        if not graph.pred[node]:
            tips.append(ascii_node)

    ascii_graph.show_nodes(tips)
    return outfile.getvalue()
示例#8
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def graph():
    """Fixture to supply an empty graph."""
    return Graph(use_color=False)
示例#9
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def graph():
    return Graph(use_color=False)
示例#10
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def get_ascii_graph(result: Union[Array, DictOfNamedArrays],
                    use_color: bool = True) -> str:
    """Return a string representing the computation of *result*
    using the `asciidag <https://pypi.org/project/asciidag/>`_ package.

    :arg result: Outputs of the computation (cf.
        :func:`pytato.generate_loopy`).
    :arg use_color: Colorized output
    """
    outputs: DictOfNamedArrays = normalize_outputs(result)
    del result

    mapper = ArrayToDotNodeInfoMapper()
    for elem in outputs._data.values():
        mapper(elem)

    nodes = mapper.nodes

    input_arrays: List[Array] = []
    internal_arrays: List[ArrayOrNames] = []
    array_to_id: Dict[ArrayOrNames, str] = {}

    id_gen = UniqueNameGenerator()
    for array in nodes:
        array_to_id[array] = id_gen("array")
        if isinstance(array, InputArgumentBase):
            input_arrays.append(array)
        else:
            internal_arrays.append(array)

    # Since 'asciidag' prints the DAG from top to bottom (ie, with the inputs
    # at the bottom), we need to invert our representation of it, that is, the
    # 'parents' constructor argument to Node() actually means 'children'.
    from asciidag.node import Node  # type: ignore[import]
    asciidag_nodes: Dict[ArrayOrNames, Node] = {}

    from collections import defaultdict
    asciidag_edges: Dict[ArrayOrNames, List[ArrayOrNames]] = defaultdict(list)

    # Reverse edge directions
    for array in internal_arrays:
        for _, v in nodes[array].edges.items():
            asciidag_edges[v].append(array)

    # Add the internal arrays in reversed order
    for array in internal_arrays[::-1]:
        ary_edges = [asciidag_nodes[v] for v in asciidag_edges[array]]

        if array == internal_arrays[-1]:
            ary_edges.append(Node("Outputs"))

        asciidag_nodes[array] = Node(f"{nodes[array].title}",
                                     parents=ary_edges)

    # Add the input arrays last since they have no predecessors
    for array in input_arrays:
        ary_edges = [asciidag_nodes[v] for v in asciidag_edges[array]]
        asciidag_nodes[array] = Node(f"{nodes[array].title}",
                                     parents=ary_edges)

    input_node = Node("Inputs",
                      parents=[asciidag_nodes[v] for v in input_arrays])

    from asciidag.graph import Graph  # type: ignore[import]
    from io import StringIO

    f = StringIO()
    graph = Graph(fh=f, use_color=use_color)

    graph.show_nodes([input_node])

    # Get the graph and remove trailing whitespace
    res = "\n".join([s.rstrip() for s in f.getvalue().split("\n")])

    return res