import gtk
from laydi import dataset, logger, plots, workflow, laydi, project
from laydi.lib import blmfuncs
import geneontology
#import gostat
from scipy import array, randn, log, ones, zeros
import networkx
import re
EVIDENCE_CODES=[('IMP', 'Inferred from mutant phenotype'),
('IGI', 'Inferred from genetic interaction'),
('IPI', 'Inferred from physical interaction'),
('ISS', 'Inferred from sequence or structure similarity'),
('IDA', 'Inferred from direct assay'),
('IEP', 'Inferred on expression pattern'),
('IEA', 'Inferred from electronic annotation'),
('TAS', 'Traceable author statement'),
('NAS', 'Non-traceable author statement'),
('ND', 'No biological data available'),
('RCA', 'Inferred from reviewed computational analysis'),
('IC', 'Inferred by curator')]
DISTANCE_METRICS = [('resnik', 'Resnik'),
('jiang', 'Jiang & Conrath'),
('fussimeg', 'FuSSiMeG')]
GO_DATA_DIR = '/home/einarr/data'
evidence = None
go = None
class GoTermView (gtk.Frame):
def __init__(self):
gtk.Frame.__init__(self)
tab = gtk.Table(2, 2, False)
self._table = tab
self._name = gtk.Label('')
self._name.set_line_wrap(True)
self._name.set_alignment(0, 0)
name_label = gtk.Label('Name:')
name_label.set_alignment(0, 0)
tab.attach(name_label, 0, 1, 0, 1, gtk.FILL, gtk.FILL, 5, 5)
tab.attach(self._name, 1, 2, 0, 1, gtk.FILL|gtk.EXPAND, gtk.FILL, 5, 5)
self._def = gtk.TextBuffer()
textview = gtk.TextView(self._def)
textview.set_wrap_mode(gtk.WRAP_WORD)
scrolled_window = gtk.ScrolledWindow()
scrolled_window.add(textview)
def_label = gtk.Label('Def:')
def_label.set_alignment(0.0, 0.0)
tab.attach(def_label, 0, 1, 1, 2, gtk.FILL, gtk.FILL, 5, 5)
tab.attach(scrolled_window, 1, 2, 1, 2, gtk.FILL|gtk.EXPAND, gtk.FILL|gtk.EXPAND, 5, 5)
self.add(tab)
self.set_go_term(None)
def set_go_term(self, term):
if term:
self.set_label(term['id'])
self._name.set_text(term['name'])
self._def.set_text(term['def'])
else:
self.set_label('GO Term')
self._name.set_text('')
self._def.set_text('')
class GeneOntologyTree (gtk.HPaned):
def __init__(self, network):
gtk.HPaned.__init__(self)
treemodel = geneontology.get_go_treestore(network)
self._treemodel = treemodel
self._tree_view = gtk.TreeView(treemodel)
self._selected_terms = set()
self._tree_view.set_fixed_height_mode(True)
# Set up context menu
self._context_menu = GoTermContextMenu(treemodel, self._tree_view)
self._tree_view.connect('popup_menu', self._popup_menu)
self._tree_view.connect('button_press_event', self._on_button_press)
renderer = gtk.CellRendererText()
go_column = gtk.TreeViewColumn('GO ID', renderer, text=0)
go_column.set_sizing(gtk.TREE_VIEW_COLUMN_FIXED)
go_column.set_fixed_width(200)
go_column.set_resizable(True)
self._tree_view.insert_column(go_column, 0)
renderer = gtk.CellRendererToggle()
renderer.set_property('activatable', True)
renderer.connect('toggled', self._toggle_selected)
renderer.set_active(True)
renderer.set_property('mode', gtk.CELL_RENDERER_MODE_ACTIVATABLE)
go_column = gtk.TreeViewColumn('T', renderer, active=2)
go_column.set_fixed_width(20)
go_column.set_sizing(gtk.TREE_VIEW_COLUMN_FIXED)
go_column.set_resizable(True)
self._tree_view.insert_column(go_column, 1)
renderer = gtk.CellRendererText()
go_column = gtk.TreeViewColumn('Name', renderer, text=1)
go_column.set_fixed_width(200)
go_column.set_sizing(gtk.TREE_VIEW_COLUMN_FIXED)
go_column.set_resizable(True)
self._tree_view.insert_column(go_column, 2)
self._desc_view = GoTermView()
self._tree_view.connect('cursor-changed', self._on_cursor_changed)
scrolled_window = gtk.ScrolledWindow()
scrolled_window.add(self._tree_view)
self.add1(scrolled_window)
self.add2(self._desc_view)
self.show_all()
def _on_cursor_changed(self, tree):
path, col = self._tree_view.get_cursor()
current = self._treemodel.get_iter(path)
term = self._treemodel.get_value(current, 3)
self._desc_view.set_go_term(term)
##
## GTK Callback functions
##
def _popup_menu(self, *rest):
self.menu.popup(None, None, None, 0, 0)
def _on_button_press(self, widget, event):
path = widget.get_path_at_pos(int(event.x), int(event.y))
iter = None
if path:
iter = self._treemodel.get_iter(path[0])
obj = self._treemodel.get_value(iter, 3)
else:
obj = None
self._context_menu.set_current_term(obj, iter)
if event.button == 3:
self._context_menu.popup(None, None, None, event.button, event.time)
def _toggle_selected(self, renderer, path):
iter = self._treemodel.get_iter(path)
selected = self._treemodel.get_value(iter, 2)
id = self._treemodel.get_value(iter, 0)
self._treemodel.set_value(iter, 2, not selected)
if selected:
self._selected_terms.remove(id)
else:
self._selected_terms.add(id)
class GoTermContextMenu (gtk.Menu):
"""Context menu for GO terms in the gene ontology browser"""
def __init__(self, treemodel, treeview):
self._treemodel = treemodel
self._treeview = treeview
self._current_term = None
self._current_iter = None
gtk.Menu.__init__(self)
# Popuplate tree
self._expand_item = i = gtk.MenuItem('Expand')
i.connect('activate', self._on_expand_subtree, treemodel, treeview)
self.append(i)
i.show()
self._collapse_item = i = gtk.MenuItem('Collapse')
i.connect('activate', self._on_collapse_subtree, treemodel, treeview)
self.append(i)
i.show()
self._select_subtree_item = i = gtk.MenuItem('Select subtree')
i.connect('activate', self._on_select_subtree, treemodel, treeview)
self.append(i)
i.show()
def set_current_term(self, term, it):
self._current_term = term
self._current_iter = it
def _on_expand_subtree(self, item, treemodel, treeview):
path = treemodel.get_path(self._current_iter)
treeview.expand_row(path, True)
def _on_collapse_subtree(self, item, treemodel, treeview):
treeview.collapse_row(treemodel.get_path(self._current_iter))
def _on_select_subtree(self, item, treemodel, treeview):
logger.log('notice', 'Selecting subtree from GO id: %s (%s)' %
(self._current_term['id'], self._current_term['name']))
ids = [x['id'] for x in networkx.bfs(go, self._current_term)]
project.project.set_selection('go-terms', set(ids))
class GoWorkflow (workflow.Workflow):
name = 'Gene Ontology'
ident = 'go'
description = 'Gene Ontology Workflow. For tree distance measures based '\
+ 'on the GO tree.'
def __init__(self, app):
workflow.Workflow.__init__(self, app)
load = workflow.Stage('load', 'Load GO Annotations')
load.add_function(LoadGOFunction())
load.add_function(LoadAnnotationsFunction())
load.add_function(LoadTextDatasetFunction())
self.add_stage(load)
go = workflow.Stage('go', 'Gene Ontology')
go.add_function(SelectGoTermsFunction(self))
go.add_function(GoDistanceFunction())
go.add_function(SaveDistancesFunction())
self.add_stage(go)
blm = workflow.Stage('blm', 'Bilinear Analysis')
blm.add_function(blmfuncs.PCA())
self.add_stage(blm)
class LoadGOFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'load-go', 'Load Gene Ontology')
def run(self):
global go
go = geneontology.read_default_go()
browser = GeneOntologyTree(go)
label = gtk.Label('_Gene Ontology')
label.set_use_underline(True)
laydi.app['bottom_notebook'].append_page(browser, label)
class LoadTextDatasetFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'load-text-ds', 'Load GO Evidence')
def run(self):
f = open('/home/einarr/data/goa-condensed.ftsv')
global evidence
evidence = dataset.read_ftsv(f)
return [evidence]
class LoadAnnotationsFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'load-go-ann', 'Load Annotations')
self.annotations = None
def run(self):
global evidence
f = open(GO_DATA_DIR + '/goa-condensed')
ev_codes = f.readline().split()
go_terms = []
lines = f.readlines()
m = zeros((len(lines), len(ev_codes)))
for i, l in enumerate(lines):
values = l.split()
go_terms.append(values[0])
for j, v in enumerate(values[1:]):
m[i,j] = float(v.strip())
d = dataset.Dataset(m,
[['go-terms', go_terms], ['evidence', ev_codes]],
name='GO evidence')
evidence = d
return [d]
class EvidenceCodeFrame(gtk.Frame):
def __init__(self):
gtk.Frame.__init__(self, 'Evidence Codes')
self._ec_buttons = {}
vbox = gtk.VBox(len(EVIDENCE_CODES))
for code, desc in EVIDENCE_CODES:
btn = gtk.CheckButton('%s (%s)' % (code, desc))
self._ec_buttons[code] = btn
vbox.add(btn)
self.add(vbox)
def set_options(self, options):
for code, desc in EVIDENCE_CODES:
self._ec_buttons[code].set_active(options[code])
def update_options(self, options):
for code, desc in EVIDENCE_CODES:
options[code] = self._ec_buttons[code].get_active()
return options
class DistanceMetricFrame(gtk.Frame):
def __init__(self):
gtk.Frame.__init__(self, 'Distance Metrics')
self._metric_buttons = {}
vbox = gtk.VBox()
prev = None
for code, text in DISTANCE_METRICS:
btn = gtk.RadioButton(prev, '%s' % text)
self._metric_buttons[code] = btn
vbox.add(btn)
prev = btn
self.add(vbox)
def set_options(self, options):
self._metric_buttons[options['metric']].set_active(True)
def update_options(self, options):
for code, text in DISTANCE_METRICS:
if self._metric_buttons[code].get_active():
options['metric'] = code
return options
return options
class GoDistanceDialog(gtk.Dialog):
def __init__(self):
gtk.Dialog.__init__(self, 'GO term distance matrix',
None,
gtk.DIALOG_MODAL | gtk.DIALOG_DESTROY_WITH_PARENT,
(gtk.STOCK_OK, gtk.RESPONSE_OK,
gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL))
self._ec_frame = EvidenceCodeFrame()
self._metric_frame = DistanceMetricFrame()
self.vbox.add(self._ec_frame)
self.vbox.add(self._metric_frame)
def run(self):
self.vbox.show_all()
return gtk.Dialog.run(self)
def set_options(self, options):
self._ec_frame.set_options(options)
self._metric_frame.set_options(options)
def update_options(self, options):
self._ec_frame.update_options(options)
self._metric_frame.update_options(options)
return options
def set_editable(self, editable):
self._ec_frame.set_sensitive(editable)
self._metric_frame.set_sensitive(editable)
class NumericDict(dict):
def __init__(self):
dict.__init__(self)
def __getitem__(self, key):
retval = 0
try:
retval = dict.__getitem__(self, key)
except:
retval = 0.0
return retval
class SelectGoTermsFunction(workflow.Function):
def __init__(self, wf):
workflow.Function.__init__(self, 'go-select', 'Select GO Terms')
self.wf = wf
def run(self, ds):
terms = [x['id'] for x in networkx.paths.bfs(go, go.get_bp())]
self.wf.project.set_selection('go-terms', set(terms[:100]))
# self.wf.project.set_selection('go-terms', set(['GO:0007582', 'GO:0008150', 'GO:0051704', 'GO:0044419']))
class GoDistanceFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'go-dist', 'GO term distance matrix')
self.options = GoDistanceOptions()
def resnik_distance_matrix(self, selection, ic):
size = len(selection['go-terms'])
m = zeros((size, size))
# Create resnik distance matrix
ids = list(selection['go-terms'])
for i, t1 in enumerate(ids):
for j, t2 in enumerate(ids):
term1 = go.by_id[t1]
term2 = go.by_id[t2]
subsumer = go.subsumer(term1, term2)
if subsumer == None:
m[i, j] = 1000
else:
# print "%s - %s - %s" % (t1, subsumer['id'], t2)
m[i, j] = ic[t1] + ic[t2] - 2.0 * ic[subsumer['id']]
ds = dataset.Dataset(m, (('go-terms', ids), ('_go-terms', ids)), 'Resnik')
return ds
def run(self, x, selection):
global evidence, go
self.options = self.show_gui(self.options)
if not selection.has_key('go-terms') or len(selection['go-terms']) == 0:
logger.log('warning', 'No GO terms selected. Cannot make distance matrix.')
codes = [c for c, d in EVIDENCE_CODES if self.options[c]]
ev_indices = evidence.get_indices('evidence', codes)
ann_count_matrix = evidence._array[:, ev_indices].sum(1)
total_ann = ann_count_matrix.sum(0)
annotations = NumericDict()
ic = NumericDict()
# Insert annotations into dict
for i, v in enumerate(evidence.get_identifiers('go-terms')):
annotations[v] = ann_count_matrix[i]
# Accumulate annotations
for term in reversed(networkx.topological_sort(go)):
for parent in go.in_neighbors(term):
annotations[parent['id']] += annotations[term['id']]
# Create information content dictionary
for term, count in annotations.items():
ic[term] = -log(count / total_ann)
return [self.resnik_distance_matrix(selection, ic)]
def show_gui(self, options, edit=True):
dialog = GoDistanceDialog()
dialog.set_options(self.options)
dialog.show_all()
dialog.set_editable(edit)
response = dialog.run()
dialog.hide()
if response == gtk.RESPONSE_OK:
return dialog.update_options(self.options)
else:
return options
class SaveDistancesFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'save-matrix', 'Save Matrix')
def run(self, ds):
filename = '/home/einarr/data/output.ftsv'
fd = open(filename, 'w')
dataset.write_ftsv(fd, ds)
fd.close()
class Options(dict):
def __init__(self):
dict.__init__(self)
class GoDistanceOptions(Options):
def __init__(self):
Options.__init__(self)
for code, desc in EVIDENCE_CODES:
self[code] = True
self['metric'] = 'fussimeg'