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laydi/workflows/affy_workflow.py

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Python
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import gtk
from system import dataset, logger, plots, workflow
from scipy import randn, array, transpose, zeros
import cPickle
class AffyWorkflow (workflow.Workflow):
name = 'Affy Workflow'
ident = 'affy'
description = 'Affymetrics Workflow. Analysis of Affy-data.'
def __init__(self, app):
workflow.Workflow.__init__(self, app)
load = workflow.Stage('load', 'Load Data')
load.add_function(CelFileImportFunction())
load.add_function(PhenotypeImportFunction())
load.add_function(TestDataFunction())
load.add_function(DatasetLoadFunction())
self.add_stage(load)
explore = workflow.Stage('explore', 'Explorative analysis')
explore.add_function(PCAFunction(self))
explore.add_function(PrintFunction())
self.add_stage(explore)
save = workflow.Stage('save', 'Save Data')
save.add_function(DatasetSaveFunction())
self.add_stage(save)
class PrintFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'printer', 'Print Stuff')
def run(self, data):
dim1, dim2 = data.get_dim_names()
print dim1, dim2
print "\t", "\t".join(data.get_identifiers(dim2))
for row in zip(data.get_identifiers(dim1), data.asarray().tolist()):
print "\t".join(map(str, row))
class TestDataFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'test_data', 'Generate Test Data')
def run(self):
logger.log('notice', 'Injecting foo test data')
x = randn(20,30)
X = dataset.Dataset(x)
return [X, plots.LinePlot(X)]
class DatasetLoadFunction(workflow.Function):
"""Loader for previously pickled Datasets."""
def __init__(self):
workflow.Function.__init__(self, 'load_data', 'Load Pickled Dataset')
def run(self):
chooser = gtk.FileChooserDialog(title="Select cel files...", parent=None,
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL,
gtk.STOCK_OPEN, gtk.RESPONSE_OK))
pkl_filter = gtk.FileFilter()
pkl_filter.set_name("Python pickled data files (*.pkl)")
pkl_filter.add_pattern("*.[pP][kK][lL]")
all_filter = gtk.FileFilter()
all_filter.set_name("All Files (*.*)")
all_filter.add_pattern("*")
chooser.add_filter(pkl_filter)
chooser.add_filter(all_filter)
try:
if chooser.run() == gtk.RESPONSE_OK:
return [cPickle.load(open(chooser.get_filename()))]
finally:
chooser.destroy()
class DatasetSaveFunction(workflow.Function):
"""QND way to save data to file for later import to this program."""
def __init__(self):
workflow.Function.__init__(self, 'save_data', 'Save Pickled Dataset')
def run(self, data):
chooser = gtk.FileChooserDialog(title="Save pickled data...", parent=None,
action=gtk.FILE_CHOOSER_ACTION_SAVE,
buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL,
gtk.STOCK_SAVE, gtk.RESPONSE_OK))
pkl_filter = gtk.FileFilter()
pkl_filter.set_name("Python pickled data files (*.pkl)")
pkl_filter.add_pattern("*.[pP][kK][lL]")
all_filter = gtk.FileFilter()
all_filter.set_name("All Files (*.*)")
all_filter.add_pattern("*")
chooser.add_filter(pkl_filter)
chooser.add_filter(all_filter)
chooser.set_current_name(data.get_name() + ".pkl")
try:
if chooser.run() == gtk.RESPONSE_OK:
cPickle.dump(data, open(chooser.get_filename(), "w"), protocol=2)
logger.log("notice", "Saved data to %r." % chooser.get_filename())
finally:
chooser.destroy()
class CelFileImportFunction(workflow.Function):
"""Loads Affymetrics .CEL-files into matrix."""
def __init__(self):
workflow.Function.__init__(self, 'cel_import', 'Import Affy')
def run(self):
import rpy
chooser = gtk.FileChooserDialog(title="Select cel files...", parent=None,
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL,
gtk.STOCK_OPEN, gtk.RESPONSE_OK))
chooser.set_select_multiple(True)
cel_filter = gtk.FileFilter()
cel_filter.set_name("Cel Files (*.cel)")
cel_filter.add_pattern("*.[cC][eE][lL]")
all_filter = gtk.FileFilter()
all_filter.set_name("All Files (*.*)")
all_filter.add_pattern("*")
chooser.add_filter(cel_filter)
chooser.add_filter(all_filter)
try:
if chooser.run() == gtk.RESPONSE_OK:
rpy.r.library("affy")
silent_eval = rpy.with_mode(rpy.NO_CONVERSION, rpy.r)
silent_eval('E <- ReadAffy(filenames=c("%s"))' % '", "'.join(chooser.get_filenames()))
silent_eval('E <- rma(E)')
m = rpy.r('m <- E@exprs')
vector_eval = rpy.with_mode(rpy.VECTOR_CONVERSION, rpy.r)
rownames = vector_eval('rownames(m)')
colnames = vector_eval('colnames(m)')
# We should be nice and clean up after ourselves
rpy.r.rm(["E", "m"])
if m:
data = dataset.Dataset(m, (('ids', rownames), ('filename', colnames)), name="Affymetrics Data")
plot = plots.LinePlot(data, "Gene profiles")
return [data, plot]
else:
logger.log("notice", "No data loaded from importer.")
finally:
chooser.destroy()
class PhenotypeImportFunction(workflow.Function):
def __init__(self):
workflow.Function.__init__(self, 'import_phenotype', 'Import Phenotypes')
def run(self):
chooser = gtk.FileChooserDialog(title="Select cel files...", parent=None,
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL,
gtk.STOCK_OPEN, gtk.RESPONSE_OK))
all_filter = gtk.FileFilter()
all_filter.set_name("Tab separated file (*.*)")
all_filter.add_pattern("*")
chooser.add_filter(all_filter)
try:
if chooser.run() == gtk.RESPONSE_OK:
text = open(chooser.get_filename()).read()
data = PhenotypeDataset(text)
return [data]
finally:
chooser.destroy()
class PCAFunction(workflow.Function):
"""Generic PCA function."""
def __init__(self, wf):
workflow.Function.__init__(self, 'pca', 'PCA')
self._workflow = wf
def run(self,data):
import rpy
dim_2, dim_1 = data.get_dim_names()
silent_eval = rpy.with_mode(rpy.NO_CONVERSION, rpy.r)
rpy.with_mode(rpy.NO_CONVERSION, rpy.r.assign)("m", data.get_matrix())
silent_eval("t = prcomp(t(m))")
# we make a unique name for component dimension
c = 0
component_dim = prefix = "component"
while component_dim in data.get_all_dims():
component_dim = prefix + "_" + str(c)
c += 1
T_ids = map(str, range(1, rpy.r("dim(t$x)")[1]+1))
T = dataset.Dataset(rpy.r("t$x"), [(dim_1, data.get_identifiers(dim_1)),
(component_dim, T_ids)],
all_dims = data.get_all_dims(), name="T")
P = dataset.Dataset(rpy.r("t$rotation"), [(dim_2, data.get_identifiers(dim_2)),
(component_dim, T_ids)],
all_dims = data.get_all_dims(), name="P")
# cleanup
rpy.r.rm(["t", "m"])
loading_plot = plots.ScatterPlot(P, dim_2, component_dim, '1', '2',
"Loadings")
score_plot = plots.ScatterPlot(T, dim_1,component_dim, '1', '2',
"Scores")
return [T, P, loading_plot, score_plot]
class PhenotypeDataset(dataset.Dataset):
def __init__(self, string):
self._table = rows = [line.split("\t") for line in string.splitlines()]
columns = zip(*rows[1:])
cel_names = columns[0]
col_names = rows[0][1:]
phenotypes = []
categories = {}
self._categories = set()
for col_name, column in zip(col_names, columns[1:]):
try:
categories[col_name] = map(float, column)
phenotypes.append(col_name)
except ValueError:
# category-data
keys = []
entries = {}
for i, entry in enumerate(column):
if entry not in entries:
keys.append(entry)
entries[entry] = []
entries[entry].append(i)
for key in keys:
self._categories.add(key)
z = zeros(len(column))
for i in entries[key]:
z[i] = 1
key = "%s-%s" % (col_name, key)
phenotypes.append(key)
categories[key] = z
matrix_data = []
for key in phenotypes:
matrix_data.append(categories[key])
if matrix_data:
a = transpose(array(matrix_data))
else:
a = None
dataset.Dataset.__init__(self, a, identifiers=[('CEL', cel_names),
('phenotypes', phenotypes)],
shape=(len(cel_names),len(phenotypes)), name="Phenotype Data")
def get_phenotype_table(self):
"""Get string based table of phenotypes as read from file."""
return self._table
def get_categories(self):
"""Get categories of factors.
If factor 'sick' had possibilites Y/N, and 'sex' M/F, the
categories would be Y, N, M and F.
"""
return self._categories
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