Python Tree примеры использования

Пример #1

Файл: test_trees_manip.py Проект: openalea/StructureAnalysis

def test_build_auto_axis_sequences():
    """Extract non-redundant sequences from a tree.
       Cut trees at '+' edges. Unique children are
       considered as '<' in every case."""
    mtg_t = test_mtg_build()
    from openalea.tree_statistic.trees import etrees
    for t in range(mtg_t.NbTrees()):
        msg = "Bad number of items in tree " + str(t)
        msg += ": "
        Tr = etrees.Tree(mtg_t.Tree(t))
        T = etrees.Trees([Tr])
        seq = T.BuildPySequences(False, True)
        assert seq
        nb_items = seq.build_vectors(True).nb_vector
        msg += str(nb_items)
        msg += " - should be :"
        msg += str(T.Size())
        assert (nb_items == T.Size()), msg
        e = [v for v in Tr.Postorder() if not(Tr.IsRoot(v)) and \
            (Tr.EdgeType(Tr.Parent(v), v) == "+") and \
            (Tr.NbChildren(Tr.Parent(v)) > 1)]
        nb_seq = len(e) + 1
        msg = "Bad number of sequences in tree " + str(t)
        msg += ": " + str(len(seq))
        msg += " - should be: " + str(nb_seq)
        assert len(seq) == nb_seq, msg

Пример #2

    def build_tree(vids):
        """Build a Tree from a list of vertices"""
        root = vids[0]
        nb_vertices = len(vids)
        tree_root = 0
        mtg2tree = {}
        t = etrees.Tree(props(root), nb_vertices, tree_root)

        # Root management
        for vid in vids:
            edge_type = g.edge_type(vid)
            v = t.AddVertex(props(vid))
            mtg2tree[vid] = v
            if vid != root:
                t.AddEdge(mtg2tree[g.parent(vid)],v, edge_type)
        return t, mtg2tree

Пример #3

Файл: test_trees_manip.py Проект: openalea/StructureAnalysis

def test_build_redundant_sequences():
    """Extract redundant sequences from a tree.
       Follow every path from a leaf to root vertex."""
    mtg_t = test_mtg_build()
    from openalea.tree_statistic.trees import etrees
    for t in range(mtg_t.NbTrees()):
        msg = "Bad number of items in tree " + str(t)
        msg += ": "
        Tr = etrees.Tree(mtg_t.Tree(t))
        T = etrees.Trees([Tr])
        seq = T.BuildPySequences(True)
        assert seq
        e = [v for v in Tr.Postorder() if Tr.NbChildren(v) == 0]
        nb_seq = len(e)
        msg = "Bad number of sequences in tree " + str(t)
        msg += ": " + str(len(seq))
        msg += " - should be: " + str(nb_seq)
        assert len(seq) == nb_seq, msg

Пример #4

Файл: etrees.py Проект: openalea/StructureAnalysis

def Success1stCheck(T):
    """
    Check whether < is always the first child in T

    :Parameters:
        `T` (trees.Trees) - Tree to be tested.

    :Returns:
        True if and only if < is always the first child in T
    """
    import openalea.tree_statistic.trees.etrees as etrees
    ET = etrees.Tree(T)
    for v in ET.Breadthorder():
        # get children of every vertex
        c = list(ET.Children(v))
        has_successor = False
        # types of children
        ctypes = [ET.EdgeType(v, d) for d in c]
        if (('<' in ctypes) and (ctypes[0] != '<')):
            return False
    return True

Пример #5

Файл: etrees.py Проект: openalea/StructureAnalysis

def Success1stBuild(T, Reverse=False):
    """
    Build a copy of T where < is always the first child.
    Reverse or not the other children.

    :Parameters:
        `T` (trees.Trees) - Tree to rearrange.
        `Reverse` (bool) - True iif the order of + children
            should be inversed

    :Returns:
        A pair composed by a :ref:`openalea.tree_statistic.trees.etrees` instance
        and by a dictionary d with correspondance between the vertices in T is returned
        (use as: d[T::Vertex] = Success1stBuild(T)::Vertex)

    :Examples:

    .. doctest::

        >>> T = Success1stBuild(T, Reverse=False)

    """
    import openalea.tree_statistic.trees.etrees as etrees
    ET = etrees.Tree(T)
    copy_vid_dic = True
    nvid_to_ovid = {}  # conversion from new to old vids
    ovid_to_nvid = {}  # conversion from new to old vids
    # conversion from Tree to MTG if any
    try:
        mtg_to_tree_vid_old = T.TreeVertex()
        tree_to_mtg_vid_old = T.MTGVertex()
        mtg_tid = T._mtg_tid()  # root of mtg
    except Warning:
        copy_vid_dic = False
    # censored += [{}]
    mtg_to_tree_vid_new = {}
    tree_to_mtg_vid_new = {}
    # build a new etrees.Tree
    R = etrees.Tree(ET.Get(0), 0, 0)
    children_list = []  # list of list of children
    type_list = []  # list of list of edge types
    for v in ET.Breadthorder():
        # get children of every vertex
        c = []
        t = []
        for d in ET.Children(v):
            if ET.EdgeType(v, d) == "<":
                c = [d] + c
                t = ["<"] + t
            elif Reverse:
                c = [d] + c
                t = ["+"] + t
            else:
                c += [d]
                t += ["+"]
        children_list.append(c)
        type_list.append(t)
    lindex = 0  # index in children_ and type_lists
    # add root vertex
    v = ET.Root()
    val = ET.Get(v)
    vid = R.AddVertex(val)
    tree_to_mtg_vid_new[vid] = ET.MTGVertex(v)
    mtg_to_tree_vid_new[tree_to_mtg_vid_new[vid]] = vid
    ovid_to_nvid[v] = vid
    nvid_to_ovid[vid] = v
    for v in ET.Breadthorder():
        # add the children of v and their attributes
        llindex = 0  # index in children_ and type_[lindex] lists
        for d in children_list[lindex]:
            val = ET.Get(d)
            vid = R.AddVertex(val)
            tree_to_mtg_vid_new[vid] = ET.MTGVertex(d)
            mtg_to_tree_vid_new[tree_to_mtg_vid_new[vid]] = vid
            ovid_to_nvid[d] = vid
            nvid_to_ovid[vid] = d
            R.AddEdge(ovid_to_nvid[v], vid, type_list[lindex][llindex])
            llindex += 1
        lindex += 1
    if copy_vid_dic:
        R._copy_vid_conversion(mtg_to_tree_vid_new, tree_to_mtg_vid_new)
        R._copy_mtg_tid(mtg_tid)  # copy root of mtg
    return R, ovid_to_nvid
    return R, ovid_to_nvid