def get_example_tree():
    # Random tree
    t = Tree()
    t = Tree(
        "(((yessefk),(ad, tuɣal),((teqbaylit),(d,(tutlayt,tunṣibt)))),(((win,yebɣan), (taqbaylit)),(((ad,yissin, (tira,-s))))),(((win,yebɣan), (taqbaylit)),(((yugar) , (ucerrig)), (tafawet))));"
    )

    # Some random features in all nodes
    for n in t.traverse():
        n.add_features(weight=random.randint(0, 50))

    # Create an empty TreeStyle
    ts = TreeStyle()

    # Set our custom layout function
    ts.layout_fn = layout

    # Draw a tree
    ts.mode = "c"

    # We will add node names manually
    ts.show_leaf_name = False
    # Show branch data
    ts.show_branch_length = True
    ts.show_branch_support = True

    return t, ts
示例#2
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def buble_tree():
	built = False
	while not built:
		try:
    
			# Random tree
			t = ncbi.get_topology(idtaxa, intermediate_nodes=True)

			# Some random features in all nodes 
			for node,weigh in zip(t,weighs):

				node.add_features(weight=weigh)

			# Create an empty TreeStyle
			ts = TreeStyle()

			# Set our custom layout function
			ts.layout_fn = layout

			# Draw a tree
			ts.mode = "c"

			# We will add node names manually
			ts.show_leaf_name = True
			# Show branch data
			ts.show_branch_length = True
			ts.show_branch_support = True
				
			return t, ts
			built = True
		except KeyError as e:
			taxid_not_found = int(e.args[0])
			idtaxa.remove(taxid_not_found)
			print("the following IDs were not found in NCBI taxonomy database:" + str(taxid_not_found))
			pass
def get_example_tree():
    # Random tree
    t = Tree()
    t.populate(20, random_branches=True)

    # Some random features in all nodes
    for n in t.traverse():
        n.add_features(weight=random.randint(0, 50))

    # Create an empty TreeStyle
    ts = TreeStyle()

    # Set our custom layout function
    ts.layout_fn = layout

    # Draw a tree
    ts.mode = "c"

    # We will add node names manually
    ts.show_leaf_name = False
    # Show branch data
    ts.show_branch_length = True
    ts.show_branch_support = True

    return t, ts
示例#4
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def get_example_tree():
    # Random tree
    t = Tree(tree)
    t.populate(20, random_branches=True)

    # Some random features in all nodes
    for n in t.traverse():
        n.add_features(weight=random.randint(0, 50))

    # Create an empty TreeStyle
    ts = TreeStyle()

    # Set our custom layout function
    ts.layout_fn = layout

    # Draw a tree
    ts.mode = "c"

    # We will add node names manually
    ts.show_leaf_name = False
    # Show branch data
    ts.show_branch_length = True
    ts.show_branch_support = True

    return t, ts
def build_tree(one_tree, confidences):
    # one_tree - egy lista, amely a szekvenciasorozatokat tartalmazza, amiket lépésekben generál
    # confidences - a generálási lépéshez tartozó konfidencia

    confidences = np.insert(confidences, 0, 1.0)
    tree = Tree()
    nodes = {'': [1.0, tree]}
    for idx, seq in enumerate(one_tree):
        parent = ''
        for i in range(len(seq)):
            if not str(seq[:i + 1]) in tree:

                nodes[str(seq[:i + 1])] = []
                nodes[str(seq[:i + 1])].append(confidences[idx] *
                                               nodes[parent][0])
                nodes[str(seq[:i + 1])].append(nodes[parent][1].add_child(
                    name=str(seq), dist=nodes[str(seq[:i + 1])][0]))

            else:
                parent = str(seq[:i + 1])

    ts = TreeStyle()
    ts.show_leaf_name = True
    ts.show_branch_length = True
    ts.show_branch_support = True
    print(tree)

    return tree
示例#6
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def generateColoredPDF(tree):
    out_tree = os.path.splitext(os.path.basename(sys.argv[1]))[0] + ".pdf"
    ts = TreeStyle()
    ts.show_leaf_name = True
    ts.show_branch_support = True
    ts.show_branch_length = False
    for n in tree.traverse():
        if n.name in eukaryote_seqs:
            nstyle = NodeStyle()
            nstyle["fgcolor"] = "red"
            nstyle["size"] = 15
            n.set_style(nstyle)
            n.name = name2tax.get(n.name)
        elif n.name in bacteria_seqs:
            nstyle = NodeStyle()
            nstyle["fgcolor"] = "blue"
            nstyle["size"] = 13
            n.set_style(nstyle)
            n.name = name2tax.get(n.name)
        elif n.name in archaea_seqs:
            nstyle = NodeStyle()
            nstyle["fgcolor"] = "green"
            nstyle["size"] = 13
            n.set_style(nstyle)
            n.name = name2tax.get(n.name)
        elif n.name in other_seqs:
            nstyle = NodeStyle()
            nstyle["fgcolor"] = "grey"
            nstyle["size"] = 13
            n.set_style(nstyle)
            n.name = name2tax.get(n.name)
    tree.render(out_tree, tree_style=ts)
示例#7
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	def show(self):
		t = Tree(self.newickFormat+";")
		ts = TreeStyle(self.newickFormat+";")
		ts.show_leaf_name = True
		ts.show_branch_length = True
		ts.show_branch_support = True
		t.show(tree_style=ts)
示例#8
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 def draw_tree(self):  # Визуализация дерева в GUI, и сохранение в png файл
     style = TreeStyle()
     style.show_leaf_name = True
     style.show_branch_length = True
     style.show_branch_support = True
     self.tree.show(tree_style=style)
     self.tree.render('tree.png', w=183, units="mm", tree_style=style)
示例#9
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def show_GUI_TREE(ETETree):
    ts = TreeStyle()
    ts.show_leaf_name = False
    ts.show_branch_length = False
    ts.show_branch_support = False
    ts.show_border = True

    ETETree.show(tree_style=ts)
示例#10
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def create_tree_style():
    ts = TreeStyle()
    ts.title.add_face(TextFace("Randomly pruned data", fsize=20), column=0)
    ts.layout_fn = remove_blue_dots
    ts.mode = "c"
    ts.show_leaf_name = True
    ts.show_branch_length = True
    ts.show_branch_support = True
    return ts
示例#11
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def plot_tree(tree, leafname2data = None , show_support = False, figname = None, outfname_tree = None):

	
	def layout(node):
		
		nst_internal = NodeStyle()   
		nst_internal['size'] = 1
		nst_internal['fgcolor'] = 'black'
		nst_internal["vt_line_color"] = "black"
		nst_internal["hz_line_color"] = "black"
		nst_internal["vt_line_width"] = 1
		nst_internal["hz_line_width"] = 1
		nst_internal["vt_line_type"] = 0 #0 solid, 1 dashed, 2 dotted
		nst_internal["hz_line_type"] = 0
		
		node.set_style(nst_internal) 

		if leafname2data != None and node.is_leaf():  
			if not node.name[0] == '_':
				print(node.name)
				nst = NodeStyle()

				node_data  = leafname2data[node.name]
				node_name  = node.name
				node_shape = None
				node_color = None
				if len(node_data) >= 3:
					node_name  = node_data[0]
					node_shape = node_data[1]
					node_color = '#'+node_data[2].lower()
				else:
					node_shape = node_data[0]
					node_color = '#'+node_data[1].lower()

				nst['size']    = 15
				nst['shape']   = node_shape
				nst['fgcolor'] = node_color
				
				node.set_style(nst)
				#node.add_face(TextFace(node_name, ftype='Verdana', fsize=12), column = 0, position = "aligned")

	ts = TreeStyle()
	ts.layout_fn = layout
	ts.show_leaf_name = False
	if show_support: 
		ts.show_branch_support = True

	ts.branch_vertical_margin  = 10

	if outfname_tree != None:
		tree.write(outfile = outfname_tree)

	if figname != None:
		tree.render(figname, layout=layout, w=None, h=None, tree_style=ts, units='px', dpi=300)
	else:
		tree.show(tree_style=ts)	
def tree_style() -> TreeStyle:
    style = TreeStyle()
    style.mode = "c"  # draw tree in circular mode
    # style.scale = 20
    # style.branch_vertical_margin = 15
    style.root_opening_factor = 0.04
    style.show_leaf_name = False
    style.show_branch_length = False
    style.show_branch_support = False
    return style
示例#13
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def draw(tree):
    string = tree.as_string(schema="newick")
    string = string[4:]
    print(string)
    t = Tree(string)
    ts = TreeStyle()
    ts.show_branch_length = True
    ts.show_branch_support = True
    t.render("mytree.png")
    print('done')
示例#14
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文件: MCTS.py 项目: alexdarch/Project
    def show_tree(self):
        self.update_tree_values()  # only actually need to update these when showing the tree

        ts = TreeStyle()
        ts.show_leaf_name = False
        ts.show_branch_support = False
        # ts.rotation = 90
        # ts.title.add_face(TextFace("Hello ETE", fsize=20), column=0)
        # each node contains 3 attributes: node.dist, node.name, node.support
        self.tree.show(tree_style=ts)  # , show_internal=True)
示例#15
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def draw(countriesByGenbank, tree_phy):
    geo = Nominatim(user_agent='BioLocation', timeout=2)
    plt.figure(figsize=(13, 12))
    myMap = Basemap(projection='robin', lon_0=0, lat_0=0)
    labels = []
    location = []
    for (key, value) in countriesByGenbank.items():
        temp_location = ('NA', 'NA')
        if value != 'NA':
            place = geo.geocode(value.split(':')[0])
            x, y = myMap(place.longitude, place.latitude)
            temp_location = (x, y)
        labels.append(key)
        location.append(temp_location)
    myMap.drawcoastlines()
    myMap.drawcountries()
    myMap.fillcontinents(color='white')
    myMap.drawmapboundary(fill_color='aqua')

    longitudes = []
    latitudes = []
    for longitude, latitude in location:
        longitudes.append(longitude)
        latitudes.append(latitude)
    colors = list(mcolors.TABLEAU_COLORS)
    colorsInMap = {}
    markersize = 15
    for label, xpt, ypt, color in zip(labels, iter(longitudes), iter(latitudes), colors):
        if colorsInMap.get((xpt, ypt)):
            colorsInMap.get((xpt, ypt)).append(color)
            if xpt != 'NA':
                myMap.plot(xpt, ypt, marker='o', markerfacecolor=color,
                           markersize=str(markersize - len(colorsInMap.get((xpt, ypt)))-1 ))
        else:
            if xpt != 'NA':
                colorsInMap[(xpt, ypt)] = [color]
                myMap.plot(xpt, ypt, marker='o', markerfacecolor=color, markersize=str(markersize))
        nstyle = NodeStyle()
        nstyle["fgcolor"] = color.split(':')[1]
        tree_phy.get_leaves_by_name(label)[0].set_style(nstyle)
    plt.annotate('Nodos no ancestrales', xy=(0, 0), xycoords='axes fraction')
    plt.savefig('myMap.png')
    ts = TreeStyle()
    ts.show_branch_support = True
    tree_phy.get_tree_root().render("mytree.png", tree_style=ts)
    fig = plt.figure()
    img = mpimg.imread('mytree.png')
    imgplot = plt.imshow(img)
    os.remove('egfr-family.phy.iqtree')
    os.remove('egfr-family.phy.contree')
    os.remove('egfr-family.phy.model.gz')
    os.remove('egfr-family.phy.splits.nex')
    os.remove("egfr-family.phy.bionj")
    os.remove("egfr-family.phy.ckp.gz")
    os.remove("egfr-family.phy.mldist")
示例#16
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def balanceplot(balances, tree,
                layout=None,
                mode='c'):
    """ Plots balances on tree.

    Parameters
    ----------
    balances : np.array
        A vector of internal nodes and their associated real-valued balances.
        The order of the balances will be assumed to be in level order.
    tree : skbio.TreeNode
        A strictly bifurcating tree defining a hierarchical relationship
        between all of the features within `table`.
    layout : function, optional
        A layout for formatting the tree visualization. Must take a
        `ete.tree` as a parameter.
    mode : str
        Type of display to show the tree. ('c': circular, 'r': rectangular).

    Note
    ----
    The `tree` is assumed to strictly bifurcating and
    whose tips match `balances.

    See Also
    --------
    TreeNode.levelorder
    """
    # The names aren't preserved - let's pray that the topology is consistent.
    ete_tree = Tree(str(tree))
    # Some random features in all nodes
    i = 0
    for n in ete_tree.traverse():
        if not n.is_leaf():
            n.add_features(weight=balances[-i])
            i += 1

    # Create an empty TreeStyle
    ts = TreeStyle()

    # Set our custom layout function
    if layout is None:
        ts.layout_fn = default_layout
    else:
        ts.layout_fn = layout
    # Draw a tree
    ts.mode = mode

    # We will add node names manually
    ts.show_leaf_name = False
    # Show branch data
    ts.show_branch_length = True
    ts.show_branch_support = True

    return ete_tree, ts
示例#17
0
    def draw(self,
             file,
             colors,
             color_internal_nodes=True,
             legend_labels=(),
             show_branch_support=True,
             show_scale=True,
             legend_scale=1,
             mode="c",
             neighbours=None,
             neighbours_block=None):
        max_color = len(colors)

        used_colors = set()
        for node in self.tree.traverse():
            if not (color_internal_nodes or node.is_leaf()): continue
            color = colors[min(node.color, max_color - 1)]
            node.img_style['bgcolor'] = color
            used_colors.add(color)

        ts = TreeStyle()
        ts.mode = mode
        ts.scale = self.scale
        # Disable the default tip names config
        ts.show_leaf_name = False
        ts.show_branch_support = show_branch_support

        # ts.branch_vertical_margin = 20
        ts.show_scale = show_scale
        cur_max_color = max(v.color for v in self.tree.traverse())
        current_colors = colors[0:cur_max_color + 1]

        for i, (label, color_) in enumerate(zip(legend_labels,
                                                current_colors)):
            if color_ not in used_colors: continue
            rf = RectFace(20 * legend_scale, 16 * legend_scale, color_, color_)
            rf.inner_border.width = 1
            rf.margin_right = 14
            rf.margin_left = 14

            tf = TextFace(label, fsize=26 * legend_scale)
            tf.margin_right = 14

            ts.legend.add_face(rf, column=0)
            ts.legend.add_face(tf, column=1)

        if neighbours:
            old_tree = self.tree.copy()
            self.draw_neighbours(neighbours, neighbours_block)

        self.tree.render(file, w=1000, tree_style=ts)

        if neighbours:
            self.tree = old_tree
def set_tree_style_extended():
    ts = TreeStyle()
    # for i in range(16):
    #     ts.legend.add_face(CircleFace(10, color_dictionary["N{0}".format(i)]), column=0)

    ts.show_leaf_name = False
    ts.show_branch_length = False
    ts.show_branch_support = False
    ts.layout_fn = my_layout_extended

    return ts
示例#19
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def drawTree(treeFile, ShowBool):
    """
	Draw a tree from a phy file
	"""
    t = Tree(treeFile)
    imgFile = treeFile.replace(".tree", ".tree.pdf")

    # Basic tree style
    ts = TreeStyle()
    ts.show_leaf_name = True
    ts.show_branch_support = True
    ts.scale = 50

    # Draws nodes as small red spheres of diameter equal to 10 pixels
    nstyle = NodeStyle()
    nstyle["shape"] = "sphere"
    nstyle["size"] = 10
    nstyle["fgcolor"] = "darkred"
    #nstyle["faces_bgcolor"] = "pink"

    nstyle2 = NodeStyle()
    nstyle2["shape"] = "sphere"
    nstyle2["size"] = 10
    nstyle2["fgcolor"] = "darkblue"

    # Gray dashed branch lines
    nstyle["hz_line_type"] = 1
    nstyle["hz_line_color"] = "#cccccc"

    # Applies the same static style to all nodes in the tree. Note that,
    # if "nstyle" is modified, changes will affect to all nodes
    for n in t.traverse():
        if n.is_leaf():
            if n.name.split("|")[-1] == "GI":
                n.set_style(nstyle)
            if n.name.split("|")[-1] == "plasmid":
                n.set_style(nstyle2)
            gi = n.name.split("|")[1]
            n.name = n.name.split("|")[0]  #+ "   " + n.name.split("|")[1]
            n.name = n.name.replace("_tRNA_modification_GTPase_", "")
            n.name = n.name.replace("_DNA", "")
            n.name = " " + n.name + " "
            if n.name[-1] == "_": n.name.rstrip()

            taxon, color = taxonToColour(gi)
            n.add_face(TextFace(taxon, fgcolor=color, fsize=8),
                       column=1,
                       position="branch-right")
            #n.img_style["bgcolor"] = color

    if ShowBool == True:  #permet de flipper les braches pour avoir des topologies similaires
        t.show(tree_style=ts)
    t.render(imgFile, w=1024, units="mm", tree_style=ts)
示例#20
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def drawTree(treeFile, ShowBool):
	"""
	Draw a tree from a phy file
	"""
	t = Tree(treeFile)
	imgFile = treeFile.replace(".tree", ".tree.png")

	# Basic tree style
	ts = TreeStyle()
	ts.show_leaf_name = True
	ts.show_branch_support = True
	ts.scale =  160

	# Draws nodes as small red spheres of diameter equal to 10 pixels
	nstyle = NodeStyle()
	nstyle["shape"] = "sphere"
	nstyle["size"] = 10
	nstyle["fgcolor"] = "darkred"
	#nstyle["faces_bgcolor"] = "pink"

	nstyle2 = NodeStyle()
	nstyle2["shape"] = "sphere"
	nstyle2["size"] = 10
	nstyle2["fgcolor"] = "darkblue"
	


	# Gray dashed branch lines
	nstyle["hz_line_type"] = 1
	nstyle["hz_line_color"] = "#cccccc"

	# Applies the same static style to all nodes in the tree. Note that,
	# if "nstyle" is modified, changes will affect to all nodes
	for n in t.traverse():
		if n.is_leaf():
			if n.name.split("|")[-1] == "GI":
				n.set_style(nstyle)
			if n.name.split("|")[-1] == "plasmid":
				n.set_style(nstyle2)
			gi = n.name.split("|")[1]
			n.name = n.name.split("|")[0] #+ "   " + n.name.split("|")[1]
			n.name = n.name.replace("_tRNA_modification_GTPase_", "")
			n.name = n.name.replace("_DNA", "")
			n.name = " " + n.name + " "
			if n.name[-1] == "_": n.name.rstrip()
			
			taxon, color = taxonToColour(gi)
			n.add_face(TextFace(taxon, fgcolor = color, fsize = 8), column=1, position="branch-right")
			#n.img_style["bgcolor"] = color
			
	if ShowBool == True: #permet de flipper les braches pour avoir des topologies similaires
		t.show(tree_style=ts)
	t.render(imgFile, w=393, units="mm", tree_style=ts)
示例#21
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def CreatePhyloGeneticTree(inputfile, outputfile, size):
    f = open(inputfile, "r")
    data = f.readlines()[0]
    f.close()
    tree = Tree(data)
    tree.set_outgroup(tree.get_midpoint_outgroup())
    ts = TreeStyle()
    ts.show_leaf_name = True
    ts.show_branch_length = False
    ts.show_branch_support = False
    ts.optimal_scale_level = "mid"
    t = tree.render(str(outputfile), w=size, units="px", tree_style=None)
示例#22
0
def get_style():
	# Create an empty TreeStyle
    ts = TreeStyle()
    # Set our custom layout function
    ts.layout_fn = layout
    # Draw a tree
    ts.mode = "c"
    # We will add node names manually
    ts.show_leaf_name = True
    # Show branch data
    ts.show_branch_length = True
    ts.show_branch_support = True
    return ts
示例#23
0
    def plot_event_tree(self):
        t = Tree("((1:0.001, 0.1:0.23, 0.001, >0.001), NIE);")
        t = Tree(
            "((D: 0.723274, F: 0.567784)1.000000: 0.067192, (B: 0.279326, H: 0.756049)1.000000: 0.807788);"
        )
        t.support = 0.1
        ts = TreeStyle()
        ts.show_leaf_name = True
        ts.show_branch_length = True
        ts.show_branch_support = True

        t.add_face(TextFace(" hola "), column=0, position='branch-right')
        t.show(tree_style=ts)
示例#24
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def create_tree(nwk_file, output_png, readme):
    """
    Create tree image from a nwk file.
    :param nwk_file:
    :param output_png:
    :return:
    """
    nwk = rename_accession_no(nwk_file, readme)
    t = Tree(nwk)
    ts = TreeStyle()
    ts.show_leaf_name = True
    ts.show_branch_length = True
    ts.show_branch_support = True
    t.render(output_png, dpi=150, units='mm', tree_style=ts)
def tree2img(newick_tree, save_path):
    t = Tree(newick_tree, format=1)
    ts = TreeStyle()
    ts.show_leaf_name = False
    ts.show_branch_length = False
    ts.show_branch_support = False
    def my_layout(node):
        F = TextFace(node.name, tight_text=True)
        add_face_to_node(F, node, column=0, position="branch-right")
    ts.layout_fn = my_layout
    ts.branch_vertical_margin = 10
    ts.rotation = 90
    t.render(save_path+'png', tree_style=ts)
    t.render(save_path+'svg', tree_style=ts)
示例#26
0
def viewPhylo(sample_info, tree_file, prefix, bootstrap):
    '''
    This script will utilize ete3 to draw the phylogenetic tree calculated from buildPhylo
    '''

    #Import the samples that we used for buildPhylo
    sampleDict = import_sampleDict(sample_info)
    MStree = Tree(tree_file)
    #We want to assign colors to the leaves of the tree (this is based on <https://stackoverflow.com/questions/39380907/how-to-color-leaves-on-ete3-tree-python-3>)
    for node in MStree.traverse():
        nstyle = NodeStyle()
        nstyle["vt_line_width"] = 2
        nstyle["hz_line_width"] = 2
        # node.img_style['size'] = 0 #Hide circles at nodes
        if node.is_leaf():
            nstyle = NodeStyle()
            color = sampleDict[node.name]["clone_color"]
            nstyle["fgcolor"] = color
            nstyle["size"] = 15
            node.set_style(nstyle)
        else:
            nstyle["size"] = 0
        node.img_style = nstyle
            # node.img_style["bgcolor"] = color
            # name_face = TextFace(node.name, fgcolor=color, fsize=10)
            # node.add_face(name_face, column=0, position='branch-right')

    ts = TreeStyle()
    # ts.show_leaf_name = True
    ts.show_leaf_name = False
    ts.show_branch_support = True
    # ts.mode = "c"
    # ts.arc_start = -180 # 0 degrees = 3 o'clock
    # ts.arc_span = 180
    if bootstrap is True:
        ts.show_branch_support = True
    MStree.render(prefix + ".viewPhylo.pdf", tree_style=ts)
示例#27
0
def set_default_TreeStyle(tree, draw_nodes):
    ts = TreeStyle()
    ts.mode = "c"
    ts.arc_start = -180
    ts.arc_span = 180
    ts.root_opening_factor = 1
    ts.show_branch_length = False
    ts.show_branch_support = True
    ts.force_topology = False
    ts.show_leaf_name = False
    ts.min_leaf_separation = 10
    ts.root_opening_factor = 1
    ts.complete_branch_lines_when_necessary = True

    return ts, tree
def set_tree_style():
    ts = TreeStyle()
    ts.legend.add_face(CircleFace(10, "red"), column=0)
    ts.legend.add_face(CircleFace(10, "lime"), column=0)
    ts.legend.add_face(CircleFace(10, "cyan"), column=0)
    ts.legend.add_face(CircleFace(10, "plum"), column=0)
    ts.legend.add_face(CircleFace(10, "lightsalmon"), column=0)
    ts.legend.add_face(CircleFace(10, "indigo"), column=0)
    ts.legend.add_face(CircleFace(10, "royalblue"), column=0)
    ts.legend.add_face(CircleFace(10, "olive"), column=0)

    ts.show_leaf_name = False
    ts.show_branch_length = False
    ts.show_branch_support = False
    ts.layout_fn = my_layout

    return ts
示例#29
0
def my_tree():
    ncbi = NCBITaxa()
    my_tree = ncbi.get_topology([54263, 8324, 8323, 8327, 8325, 57571, 323754])

    for n in my_tree.traverse():
        n.add_features(weight=random.randint(0, 50))

    ts = TreeStyle()

    ts.layout_fn = layout

    ts.mode = "c"

    ts.show_branch_length = True
    ts.show_branch_support = True
    my_tree.get_ascii(attributes=["sci_name", "rank"])
    return my_tree, ts
示例#30
0
def get_tree_style():
    ts = TreeStyle()
    # ts.mode = 'c'
    ts.margin_top = 10
    ts.margin_bottom = 10
    ts.margin_left = 10
    ts.margin_right = 10
    ts.show_leaf_name = False
    ts.show_branch_length = False
    ts.show_branch_support = False
    ts.show_scale = False
    title = TextFace("     Tax Assignment Tree", fsize=10)
    title.hz_align = 2
    title.vt_align = 2
    ts.title.add_face(TextFace(" "), column=0)
    ts.title.add_face(TextFace(" "), column=0)
    ts.title.add_face(title, column=0)
    return ts
示例#31
0
文件: utils.py 项目: muppetjones/ete
def render_tree(tree, fname):
    # Generates tree snapshot
    npr_nodestyle = NodeStyle()
    npr_nodestyle["fgcolor"] = "red"
    for n in tree.traverse():
        if hasattr(n, "nodeid"):
            n.set_style(npr_nodestyle)
    ts = TreeStyle()
    ts.show_leaf_name = True
    ts.show_branch_length = True
    ts.show_branch_support = True
    ts.mode = "r"
    iterface = faces.TextFace("iter")
    ts.legend.add_face(iterface, 0)

    tree.dist = 0
    tree.sort_descendants()
    tree.render(fname, tree_style=ts, w=700)
示例#32
0
文件: utils.py 项目: Ward9250/ete
def render_tree(tree, fname):
    # Generates tree snapshot
    npr_nodestyle = NodeStyle()
    npr_nodestyle["fgcolor"] = "red"
    for n in tree.traverse():
        if hasattr(n, "nodeid"):
            n.set_style(npr_nodestyle)
    ts = TreeStyle()
    ts.show_leaf_name = True
    ts.show_branch_length = True
    ts.show_branch_support = True
    ts.mode = "r"
    iterface = faces.TextFace("iter")
    ts.legend.add_face(iterface, 0)

    tree.dist = 0
    tree.sort_descendants()
    tree.render(fname, tree_style=ts, w=700)
def tree_layout(tree_file, ps_node_list):
    t = EvolTree(tree_file, format=0)
    style_other = NodeStyle()
    style_other['size'] = 6
    style_ps = NodeStyle()
    style_ps['fgcolor'] = '#ff0000'
    style_ps['size'] = 6
    for node in t.iter_descendants():
        descendant = t.get_descendant_by_node_id(node.node_id)
        if node.node_id in ps_node_list:
            descendant.img_style = style_ps
        else:
            descendant.img_style = style_other
    ts = TreeStyle()
    ts.layout_fn = layout
    ts.show_branch_support = False
    ts.show_branch_length = False
    ts.show_leaf_name = False
    result_picture = os.path.join(output_dir, 'positive_selection_tree.png')
    t.render(result_picture, tree_style=ts)
    def draw(self,
             file,
             colors,
             color_internal_nodes=True,
             legend_labels=(),
             show_branch_support=True,
             show_scale=True,
             legend_scale=1,
             mode="c"):
        max_color = len(colors)

        for node in self.tree.traverse():
            if not (color_internal_nodes or node.is_leaf()): continue
            color = colors[min(node.color, max_color - 1)]
            node.img_style['bgcolor'] = color

        ts = TreeStyle()
        ts.mode = mode
        ts.scale = self.scale
        # Disable the default tip names config
        ts.show_leaf_name = False
        ts.show_branch_support = show_branch_support

        # ts.branch_vertical_margin = 20
        ts.show_scale = show_scale
        cur_max_color = max(v.color for v in self.tree.traverse())
        current_colors = colors[0:cur_max_color + 1]

        for i, (label, color_) in enumerate(zip(legend_labels,
                                                current_colors)):
            ts.legend.add_face(CircleFace(24 * legend_scale, color_), column=0)
            ts.legend.add_face(CircleFace(13 * legend_scale, 'White'),
                               column=1)
            ts.legend.add_face(TextFace(label, fsize=53 * legend_scale),
                               column=2)
            ts.legend.add_face(CircleFace(13 * legend_scale, 'White'),
                               column=3)

        # self.tree.render("ete_tree.pdf", dpi=300, tree_style=ts)
        self.tree.render(file, w=1000, tree_style=ts)
示例#35
0
def newick_to_linkage(filePath):
    """ converts newick tree to scipy linkage matrix """
    tree                   = ClusterTree(filePath)
    leaves                 = tree.get_leaf_names()
    ts                     = TreeStyle()
    ts.show_leaf_name      = True
    ts.show_branch_length  = True
    ts.show_branch_support = True

    idx_dict = {}
    idx = 0
    for leaf in leaves:
        idx_dict[leaf] = idx
        idx += 1

    idx_labels = [idx_dict.keys()[idx_dict.values().index(i)] for i in range(len(idx_dict))]

    dmat = np.zeros((len(leaves), len(leaves))) # FIXME need to understand

    for leaf1, leaf2 in combinations(leaves, 2):
        d = tree.get_distance(leaf1, leaf2)
        dmat[idx_dict[leaf1], idx_dict[leaf2]] = dmat[idx_dict[leaf2], idx_dict[leaf1]] = d

    schlink = sch.linkage(scipy.spatial.distance.squareform(dmat),method='average',metric='euclidean')
def get_default_tree_style(color_dict):
    ts = TreeStyle()
    ts.mode = "c"
    # ts.layout_fn = layout
    ts.margin_top = 50
    ts.margin_bottom = 0
    ts.margin_left = 50
    ts.margin_right = 50
    ts.show_scale = False
    ts.show_leaf_name = False
    ts.show_branch_length = False
    ts.show_branch_support = False
    for p, c in color_dict.iteritems():
        ts.legend.add_face(TextFace("    ", fsize=30), column=0)
        ts.legend.add_face(CircleFace(10, c), column=1)
        ts.legend.add_face(TextFace("   %s" % p, fsize=30), column=2)
    legend_margin_line = 5
    while legend_margin_line:
        ts.legend.add_face(TextFace(" "), column=0)
        ts.legend.add_face(TextFace(" "), column=1)
        ts.legend.add_face(TextFace(" "), column=2)
        legend_margin_line -= 1
    ts.legend_position = 3
    return ts
示例#37
0
def balancetest(table, grouping, tree,
                significance_test=None,
                layout=None,
                normalize=True,
                mode='c'):
    """ Performs statistical test on ilr balances and plots on tree.

    Parameters
    ----------
    table : pd.DataFrame
        A 2D matrix of strictly positive values (i.e. counts or proportions)
        where the rows correspond to samples and the columns correspond to
        features.
    grouping : pd.Series
        Vector indicating the assignment of samples to groups.  For example,
        these could be strings or integers denoting which group a sample
        belongs to.  It must be the same length as the samples in `table`.
        The index must be the same on `table` and `grouping` but need not be
        in the same order.
    tree : skbio.TreeNode
        A strictly bifurcating tree defining a hierarchical relationship
        between all of the features within `table`
    significance_test : function, optional
        A statistical significance function to test for significance between
        classes.  This function must be able to accept at least two 1D
        array_like arguments of floats and returns a test statistic and a
        p-value, or a single statistic. By default ``scipy.stats.f_oneway``
        is used.
    layout : function, optional
        A layout for formatting the tree visualization. Must take a
        `ete.tree` as a parameter.
    mode : str
        Type of display to show the tree. ('c': circular, 'r': rectangular).

    Returns
    -------
    ete_tree : ete.Tree
        ETE tree converted from the `skbio.TreeNode` object
    ts : ete.TreeStyle
        ETE tree style used for formatting the visualized tree,
        with the test statistic plotted on each of the internal nodes.

    Note
    ----
    The `skbio.TreeNode` is assumed to strictly bifurcating and
    whose tips match `table`.  Also, it is assumed that none
    of the values in `table` are zero.  Replace with a pseudocount
    if necessary.

    See also
    --------
    skbio.TreeNode.bifurcate
    skbio.stats.composition.ilr
    skbio.stats.multiplicative_replacement
    scipy.stats.f_oneway
    """

    if np.any(table <= 0):
        raise ValueError('Cannot handle zeros or negative values in `table`. '
                         'Use pseudo counts or ``multiplicative_replacement``.'
                         )

    if significance_test is None:
        significance_test = scipy.stats.f_oneway

    sorted_features = [n.name for n in tree.tips()][::-1]
    if len(sorted_features) != len(table.columns):
        raise ValueError('The number of tips (%d) in the tree must be equal '
                         'to the number features in the table (%d).' %
                         (len(sorted_features), len(table.columns)))
    table = table.reindex(columns=sorted_features)

    mat, cats = check_table_grouping(table, grouping)

    basis, nodes = phylogenetic_basis(tree)
    ilr_coords = ilr(mat, basis=basis)

    ete_tree = Tree(str(tree))

    _cats = set(cats)
    i = 0
    for n in ete_tree.traverse():
        if not n.is_leaf():
            diffs = [ilr_coords[(cats == x).values, i] for x in _cats]

            stat = significance_test(*diffs)
            if len(stat) == 2:
                n.add_features(weight=-np.log(stat[1]))
            elif len(stat) == 1:
                n.add_features(weight=stat)
            else:
                raise ValueError(
                    "Too many arguments returned by %s" %
                    significance_test.__name__)
            i += 1

    # Create an empty TreeStyle
    ts = TreeStyle()

    # Set our custom layout function
    if layout is None:
        ts.layout_fn = default_layout
    else:
        ts.layout_fn = layout

    # Draw a tree
    ts.mode = mode

    # We will add node names manually
    ts.show_leaf_name = False
    # Show branch data
    ts.show_branch_length = True
    ts.show_branch_support = True

    return ete_tree, ts
示例#38
0
文件: ete_view.py 项目: Ward9250/ete
def run(args):
    if args.text_mode:
        from ete3 import Tree
        for tindex, tfile in enumerate(args.src_tree_iterator):
            #print tfile
            if args.raxml:
                nw = re.sub(":(\d+\.\d+)\[(\d+)\]", ":\\1[&&NHX:support=\\2]", open(tfile).read())
                t = Tree(nw)
            else:
                t = Tree(tfile)

            print(t.get_ascii(show_internal=args.show_internal_names,
                              attributes=args.show_attributes))
        return

    import random
    import re
    import colorsys
    from collections import defaultdict
    from ete3 import (Tree, PhyloTree, TextFace, RectFace, faces, TreeStyle,
                         add_face_to_node, random_color)

    global FACES

    if args.face:
        FACES = parse_faces(args.face)
    else:
        FACES = []

    # VISUALIZATION
    ts = TreeStyle()
    ts.mode = args.mode
    ts.show_leaf_name = True
    ts.tree_width = args.tree_width


    for f in FACES:
        if f["value"] == "@name":
            ts.show_leaf_name = False
            break

    if args.as_ncbi:
        ts.show_leaf_name = False
        FACES.extend(parse_faces(
            ['value:@sci_name, size:10, fstyle:italic',
             'value:@taxid, color:grey, size:6, format:" - %s"',
             'value:@sci_name, color:steelblue, size:7, pos:b-top, nodetype:internal',
             'value:@rank, color:indianred, size:6, pos:b-bottom, nodetype:internal',
         ]))


    if args.alg:
        FACES.extend(parse_faces(
            ['value:@sequence, size:10, pos:aligned, ftype:%s' %args.alg_type]
         ))

    if args.heatmap:
        FACES.extend(parse_faces(
            ['value:@name, size:10, pos:aligned, ftype:heatmap']
         ))

    if args.bubbles:
        for bubble in args.bubbles:
            FACES.extend(parse_faces(
                ['value:@%s, pos:float, ftype:bubble, opacity:0.4' %bubble,
             ]))

    ts.branch_vertical_margin = args.branch_separation
    if args.show_support:
        ts.show_branch_support = True
    if args.show_branch_length:
        ts.show_branch_length = True
    if args.force_topology:
        ts.force_topology = True
    ts.layout_fn = lambda x: None

    for tindex, tfile in enumerate(args.src_tree_iterator):
        #print tfile
        if args.raxml:
            nw = re.sub(":(\d+\.\d+)\[(\d+)\]", ":\\1[&&NHX:support=\\2]", open(tfile).read())
            t = PhyloTree(nw)
        else:
            t = PhyloTree(tfile)


        if args.alg:
            t.link_to_alignment(args.alg, alg_format=args.alg_format)

        if args.heatmap:
            DEFAULT_COLOR_SATURATION = 0.3
            BASE_LIGHTNESS = 0.7
            def gradient_color(value, max_value, saturation=0.5, hue=0.1):
                def rgb2hex(rgb):
                    return '#%02x%02x%02x' % rgb
                def hls2hex(h, l, s):
                    return rgb2hex( tuple([int(x*255) for x in colorsys.hls_to_rgb(h, l, s)]))

                lightness = 1 - (value * BASE_LIGHTNESS) / max_value
                return hls2hex(hue, lightness, DEFAULT_COLOR_SATURATION)


            heatmap_data = {}
            max_value, min_value = None, None
            for line in open(args.heatmap):
                if line.startswith('#COLNAMES'):
                    pass
                elif line.startswith('#') or not line.strip():
                    pass
                else:
                    fields = line.split('\t')
                    name = fields[0].strip()

                    values = [float(x) if x else None for x in fields[1:]]

                    maxv = max(values)
                    minv = min(values)
                    if max_value is None or maxv > max_value:
                        max_value = maxv
                    if min_value is None or minv < min_value:
                        min_value = minv
                    heatmap_data[name] = values

            heatmap_center_value = 0
            heatmap_color_center = "white"
            heatmap_color_up = 0.3
            heatmap_color_down = 0.7
            heatmap_color_missing = "black"

            heatmap_max_value = abs(heatmap_center_value - max_value)
            heatmap_min_value = abs(heatmap_center_value - min_value)

            if heatmap_center_value <= min_value:
                heatmap_max_value = heatmap_min_value + heatmap_max_value
            else:
                heatmap_max_value = max(heatmap_min_value, heatmap_max_value)



        # scale the tree
        if not args.height:
            args.height = None
        if not args.width:
            args.width = None

        f2color = {}
        f2last_seed = {}
        for node in t.traverse():
            node.img_style['size'] = 0
            if len(node.children) == 1:
                node.img_style['size'] = 2
                node.img_style['shape'] = "square"
                node.img_style['fgcolor'] = "steelblue"

            ftype_pos = defaultdict(int)

            for findex, f in enumerate(FACES):
                if (f['nodetype'] == 'any' or
                    (f['nodetype'] == 'leaf' and node.is_leaf()) or
                    (f['nodetype'] == 'internal' and not node.is_leaf())):


                    # if node passes face filters
                    if node_matcher(node, f["filters"]):
                        if f["value"].startswith("@"):
                            fvalue = getattr(node, f["value"][1:], None)
                        else:
                            fvalue = f["value"]

                        # if node's attribute has content, generate face
                        if fvalue is not None:
                            fsize = f["size"]
                            fbgcolor = f["bgcolor"]
                            fcolor = f['color']

                            if fcolor:
                                # Parse color options
                                auto_m = re.search("auto\(([^)]*)\)", fcolor)
                                if auto_m:
                                    target_attr = auto_m.groups()[0].strip()
                                    if not target_attr :
                                        color_keyattr = f["value"]
                                    else:
                                        color_keyattr = target_attr

                                    color_keyattr = color_keyattr.lstrip('@')
                                    color_bin = getattr(node, color_keyattr, None)

                                    last_seed = f2last_seed.setdefault(color_keyattr, random.random())

                                    seed = last_seed + 0.10 + random.uniform(0.1, 0.2)
                                    f2last_seed[color_keyattr] = seed

                                    fcolor = f2color.setdefault(color_bin, random_color(h=seed))

                            if fbgcolor:
                                # Parse color options
                                auto_m = re.search("auto\(([^)]*)\)", fbgcolor)
                                if auto_m:
                                    target_attr = auto_m.groups()[0].strip()
                                    if not target_attr :
                                        color_keyattr = f["value"]
                                    else:
                                        color_keyattr = target_attr

                                    color_keyattr = color_keyattr.lstrip('@')
                                    color_bin = getattr(node, color_keyattr, None)

                                    last_seed = f2last_seed.setdefault(color_keyattr, random.random())

                                    seed = last_seed + 0.10 + random.uniform(0.1, 0.2)
                                    f2last_seed[color_keyattr] = seed

                                    fbgcolor = f2color.setdefault(color_bin, random_color(h=seed))

                            if f["ftype"] == "text":
                                if f.get("format", None):
                                    fvalue = f["format"] % fvalue

                                F = TextFace(fvalue,
                                             fsize = fsize,
                                             fgcolor = fcolor or "black",
                                             fstyle = f.get('fstyle', None))

                            elif f["ftype"] == "fullseq":
                                F = faces.SeqMotifFace(seq=fvalue, seq_format="seq",
                                                       seqtail_format="seq",
                                                       height=fsize)
                            elif f["ftype"] == "compactseq":
                                F = faces.SeqMotifFace(seq=fvalue, seq_format="compactseq",
                                                       seqtail_format="compactseq",
                                                       height=fsize)
                            elif f["ftype"] == "blockseq":
                                F = faces.SeqMotifFace(seq=fvalue, seq_format="blockseq",
                                                   seqtail_format="blockseq",
                                                       height=fsize,
                                                       fgcolor=fcolor or "slategrey",
                                                       bgcolor=fbgcolor or "slategrey",
                                                       scale_factor = 1.0)
                                fbgcolor = None
                            elif f["ftype"] == "bubble":
                                try:
                                    v = float(fvalue)
                                except ValueError:
                                    rad = fsize
                                else:
                                    rad = fsize * v
                                F = faces.CircleFace(radius=rad, style="sphere",
                                                     color=fcolor or "steelblue")

                            elif f["ftype"] == "heatmap":
                                if not f['column']:
                                    col = ftype_pos[f["pos"]]
                                else:
                                    col = f["column"]

                                for i, value in enumerate(heatmap_data.get(node.name, [])):
                                    ftype_pos[f["pos"]] += 1

                                    if value is None:
                                        color = heatmap_color_missing
                                    elif value > heatmap_center_value:
                                        color = gradient_color(abs(heatmap_center_value - value), heatmap_max_value, hue=heatmap_color_up)
                                    elif value < heatmap_center_value:
                                        color = gradient_color(abs(heatmap_center_value - value), heatmap_max_value, hue=heatmap_color_down)
                                    else:
                                        color = heatmap_color_center
                                    node.add_face(RectFace(20, 20, color, color), position="aligned", column=col + i)
                                    # Add header
                                    # for i, name in enumerate(header):
                                    #    nameF = TextFace(name, fsize=7)
                                    #    nameF.rotation = -90
                                    #    tree_style.aligned_header.add_face(nameF, column=i)
                                F = None

                            elif f["ftype"] == "profile":
                                # internal profiles?
                                F = None
                            elif f["ftype"] == "barchart":
                                F = None
                            elif f["ftype"] == "piechart":
                                F = None



                            # Add the Face
                            if F:
                                F.opacity = f['opacity'] or 1.0

                                # Set face general attributes
                                if fbgcolor:
                                    F.background.color = fbgcolor

                                if not f['column']:
                                    col = ftype_pos[f["pos"]]
                                    ftype_pos[f["pos"]] += 1
                                else:
                                    col = f["column"]
                                node.add_face(F, column=col, position=f["pos"])

        if args.image:
            t.render("t%d.%s" %(tindex, args.image),
                     tree_style=ts, w=args.width, h=args.height, units=args.size_units)
        else:
            t.show(None, tree_style=ts)
示例#39
0
文件: visualize.py 项目: Ward9250/ete
def draw_tree(tree, conf, outfile):
    try:
        from ete3 import (add_face_to_node, AttrFace, TextFace, TreeStyle, RectFace, CircleFace,
                             SequenceFace, random_color, SeqMotifFace)
    except ImportError as e:
        print(e)
        return

    def ly_basic(node):
        if node.is_leaf():
            node.img_style['size'] = 0
        else:
            node.img_style['size'] = 0
            node.img_style['shape'] = 'square'
            if len(MIXED_RES) > 1 and hasattr(node, "tree_seqtype"):
                if node.tree_seqtype == "nt":
                    node.img_style["bgcolor"] = "#CFE6CA"
                    ntF = TextFace("nt", fsize=6, fgcolor='#444', ftype='Helvetica')
                    add_face_to_node(ntF, node, 10, position="branch-bottom")
            if len(NPR_TREES) > 1 and hasattr(node, "tree_type"):
                node.img_style['size'] = 4
                node.img_style['fgcolor'] = "steelblue"

        node.img_style['hz_line_width'] = 1
        node.img_style['vt_line_width'] = 1

    def ly_leaf_names(node):
        if node.is_leaf():
            spF = TextFace(node.species, fsize=10, fgcolor='#444444', fstyle='italic', ftype='Helvetica')
            add_face_to_node(spF, node, column=0, position='branch-right')
            if hasattr(node, 'genename'):
                geneF = TextFace(" (%s)" %node.genename, fsize=8, fgcolor='#777777', ftype='Helvetica')
                add_face_to_node(geneF, node, column=1, position='branch-right')

    def ly_supports(node):
        if not node.is_leaf() and node.up:
            supFace = TextFace("%0.2g" %(node.support), fsize=7, fgcolor='indianred')
            add_face_to_node(supFace, node, column=0, position='branch-top')

    def ly_tax_labels(node):
        if node.is_leaf():
            c = LABEL_START_COL
            largest = 0
            for tname in TRACKED_CLADES:
                if hasattr(node, "named_lineage") and tname in node.named_lineage:
                    linF = TextFace(tname, fsize=10, fgcolor='white')
                    linF.margin_left = 3
                    linF.margin_right = 2
                    linF.background.color = lin2color[tname]
                    add_face_to_node(linF, node, c, position='aligned')
                    c += 1

            for n in range(c, len(TRACKED_CLADES)):
                add_face_to_node(TextFace('', fsize=10, fgcolor='slategrey'), node, c, position='aligned')
                c+=1

    def ly_full_alg(node):
        pass

    def ly_block_alg(node):
        if node.is_leaf():
            if 'sequence' in node.features:
                seqFace = SeqMotifFace(node.sequence, [])
                # [10, 100, "[]", None, 10, "black", "rgradient:blue", "arial|8|white|domain Name"],
                motifs = []
                last_lt = None
                for c, lt in enumerate(node.sequence):
                    if lt != '-':
                        if last_lt is None:
                            last_lt = c
                        if c+1 == len(node.sequence):
                            start, end = last_lt, c
                            motifs.append([start, end, "()", 0, 12, "slategrey", "slategrey", None])
                            last_lt = None
                    elif lt == '-':
                        if last_lt is not None:
                            start, end = last_lt, c-1
                            motifs.append([start, end, "()", 0, 12, "grey", "slategrey", None])
                            last_lt = None

                seqFace = SeqMotifFace(node.sequence, motifs,
                                       intermotif_format="line",
                                       seqtail_format="line", scale_factor=ALG_SCALE)
                add_face_to_node(seqFace, node, ALG_START_COL, aligned=True)


    TRACKED_CLADES = ["Eukaryota", "Viridiplantae",  "Fungi",
                      "Alveolata", "Metazoa", "Stramenopiles", "Rhodophyta",
                      "Amoebozoa", "Crypthophyta", "Bacteria",
                      "Alphaproteobacteria", "Betaproteobacteria", "Cyanobacteria",
                      "Gammaproteobacteria",]

    # ["Opisthokonta",  "Apicomplexa"]

    colors = random_color(num=len(TRACKED_CLADES), s=0.45)
    lin2color = dict([(ln, colors[i]) for i, ln in enumerate(TRACKED_CLADES)])

    NAME_FACE = AttrFace('name', fsize=10, fgcolor='#444444')

    LABEL_START_COL = 10
    ALG_START_COL = 40
    ts = TreeStyle()
    ts.draw_aligned_faces_as_table = False
    ts.draw_guiding_lines = False
    ts.show_leaf_name = False
    ts.show_branch_support = False
    ts.scale = 160

    ts.layout_fn = [ly_basic, ly_leaf_names, ly_supports, ly_tax_labels]

    MIXED_RES = set()
    MAX_SEQ_LEN = 0
    NPR_TREES = []
    for n in tree.traverse():
        if hasattr(n, "tree_seqtype"):
            MIXED_RES.add(n.tree_seqtype)
        if hasattr(n, "tree_type"):
            NPR_TREES.append(n.tree_type)
        seq = getattr(n, "sequence", "")
        MAX_SEQ_LEN = max(len(seq), MAX_SEQ_LEN)

    if MAX_SEQ_LEN:
        ALG_SCALE = min(1, 1000./MAX_SEQ_LEN)
        ts.layout_fn.append(ly_block_alg)

    if len(NPR_TREES) > 1:
        rF = RectFace(4, 4, "steelblue", "steelblue")
        rF.margin_right = 10
        rF.margin_left = 10
        ts.legend.add_face(rF, 0)
        ts.legend.add_face(TextFace(" NPR node"), 1)
        ts.legend_position = 3

    if len(MIXED_RES) > 1:
        rF = RectFace(20, 20, "#CFE6CA", "#CFE6CA")
        rF.margin_right = 10
        rF.margin_left = 10
        ts.legend.add_face(rF, 0)
        ts.legend.add_face(TextFace(" Nucleotide based alignment"), 1)
        ts.legend_position = 3


    try:
        tree.set_species_naming_function(spname)
        annotate_tree_with_ncbi(tree)
        a = tree.search_nodes(species='Dictyostelium discoideum')[0]
        b = tree.search_nodes(species='Chondrus crispus')[0]
        #out = tree.get_common_ancestor([a, b])
        #out = tree.search_nodes(species='Haemophilus parahaemolyticus')[0].up
        tree.set_outgroup(out)
        tree.swap_children()
    except Exception:
        pass

    tree.render(outfile, tree_style=ts, w=170, units='mm', dpi=150)
    tree.render(outfile+'.svg', tree_style=ts, w=170, units='mm', dpi=150)
    tree.render(outfile+'.pdf', tree_style=ts, w=170, units='mm', dpi=150)
示例#40
0
    args, unknown = parser.parse_known_args()
    
    t = Tree(args.i)
    ts = TreeStyle()
    
    if args.colorleaf:
        
        with open(args.colorleaf,'rU') as file_map:
            for line in file_map:
                if line:
                    leaf_color = list(map(str.strip,line.split('\t')))
                    print leaf_color
                    for leaf in t.get_leaves_by_name(leaf_color[0]):
                        leaf.set_style(NodeStyle())
                        
                        if leaf.name == leaf_color[0]:
                            leaf.img_style["bgcolor"] = leaf_color[1]
                        
    ts.show_leaf_name = not args.noleaf
    ts.show_branch_length = not args.nolength
    ts.show_branch_support = not args.nosupport

    if args.circular:
        ts.mode = "c"
        
    ext="svg"
    if args.ext:
       ext = args.ext
       
    t.render(args.o+ext, w=183, tree_style=ts, units="mm")
from ete3 import Tree,TreeStyle,NodeStyle
import os
for tree in [file for file in os.listdir('.') if file and file.endswith('_phyml_tree.txt')]:
    #print tree
    try:
        with open( tree, 'r') as f:  # FIXME boot_trees verus phyml_tree
            t = Tree(open(tree,'r').read())
            ts = TreeStyle()
            ns = NodeStyle()
            ns['size']=0
            ts.show_leaf_name = True
            ts.show_branch_length = False
            ts.show_branch_support = True
            for n in t.traverse():
                n.set_style(ns)
            #t.show(tree_style=ts)
            t.render( os.getcwd()+'/'+tree.replace('_phyml_tree.txt', '.png'),tree_style = ts)
    except:
        pass
示例#42
0
def main(args):
	if args.alignment:
		t = PhyloTree(args.tree, alignment=args.alignment, alg_format='fasta')
	else:
		t = PhyloTree(args.tree)

	if args.highlight_new:
		runs = read_runs(args.highlight_new)

	t.set_outgroup('EM_079422')
	t.ladderize()

	ts = TreeStyle()
	ts.show_leaf_name = False
	ts.show_branch_support = False
	ts.layout_fn = layout

	thick_hz_line = NodeStyle()
	thick_hz_line["hz_line_width"] = 8
	t.set_style(thick_hz_line)
	#t.children[0].set_style(thick_hz_line)
	#t.children[1].set_style(thick_hz_line)

	thick_vt_line = NodeStyle()
	thick_vt_line["vt_line_width"] = 4
	t.set_style(thick_vt_line)

	# header
	if not args.hide_annotations:
		ts.aligned_header.add_face(MyTextFace('Sample identifier', fstyle='Bold', fsize=8, tight_text=False), column = 1)
		ts.aligned_header.add_face(MyTextFace('Prefecture', fstyle='Bold', fsize=8, tight_text=False), column = 2)
		ts.aligned_header.add_face(MyTextFace('Sous-prefecture', fstyle='Bold', fsize=8, tight_text=False), column = 3)
		ts.aligned_header.add_face(MyTextFace('Village', fstyle='Bold', fsize=8, tight_text=False), column = 4)
		ts.aligned_header.add_face(MyTextFace('Sample received', fstyle='Bold', fsize=8, tight_text=False), column = 5)

	if args.positions:
		positions = read_positions(args.positions)

		alg_header = RulerFace(positions,
                              col_width=11,
                              height=0, # set to 0 if dont want to use values
                              kind="stick",
                              hlines = [0],
                              hlines_col = ["white"], # trick to hide hz line
                              )

		ts.aligned_header.add_face(alg_header, 6)

	#legend
	if args.legend:
		legend = {}
		for s in samples.values():
			legend[s['prefec']] = s['prefec__colour']
		for p in sorted(legend.keys()):
			ts.legend.add_face(CircleFace(4, legend[p]), column=0)
			ts.legend.add_face(MyTextFace(p, fsize=6, tight_text=False), column=1)	
		ts.legend_position=1

	if args.circular:
		ts.mode = "c"
		ts.arc_start = -180 # 0 degrees = 3 o'clock
		ts.arc_span = 180

#	t.show(tree_style=ts)
	t.render(args.output, tree_style=ts, w=1024)
示例#43
0
"""

from ete3 import Tree, TreeStyle, NodeStyle

with open('/Users/diyadas/cdips/Topic-Ontology/SimpleWikiTree_u.txt','r') as f:
    treestr = f.readlines()[0]    
    

t = Tree( treestr.rstrip(),format=8)

circular_style = TreeStyle()
circular_style.mode = "c" # draw tree in circular mode
circular_style.scale = 120
circular_style.show_leaf_name = True
circular_style.show_branch_length = True
circular_style.show_branch_support = True
t.render("mytree.png", tree_style=circular_style)


nstyle = NodeStyle()
nstyle["hz_line_width"] = 3
nstyle["vt_line_width"] = 3

# Applies the same static style to all nodes in the tree. Note that,
# if "nstyle" is modified, changes will affect to all nodes
for n in t.traverse():
   n.set_style(nstyle)



ts = TreeStyle()