def setup_control_area(self): # Control area self.input_info = widgetLabel( widgetBox(self.controlArea, "Info", addSpace=True), 'No data on input.\n') self.custom_gs_col_box = box = vBox(self.controlArea, 'Custom Gene Set Term Column') box.hide() self.reference_radio_box = radioButtonsInBox( self.controlArea, self, "use_reference_data", ["Entire genome", "Reference gene set (input)"], tooltips=[ "Use entire genome (for gene set enrichment)", "Use reference set of genes" ], box="Reference", callback=self.invalidate, ) self.reference_radio_box.setEnabled(False) gene_sets_box = widgetBox(self.controlArea, "Gene Sets") self.gs_widget = GeneSetsSelection(gene_sets_box, self, 'stored_gene_sets_selection') self.gs_widget.hierarchy_tree_widget.itemClicked.connect( self.update_tree_view) self.commit_button = auto_commit(self.controlArea, self, "auto_commit", "&Commit", box=False)
def setup_control_area(self): # Control area self.custom_gs_col_box = box = vBox(self.controlArea, 'Custom Gene Set Term Column') box.hide() gene_sets_box = widgetBox(self.controlArea, "Gene Sets") self.gs_widget = GeneSetsSelection(gene_sets_box, self, 'stored_gene_sets_selection') self.gs_widget.hierarchy_tree_widget.itemClicked.connect(self.update_tree_view) self.commit_button = auto_commit(self.controlArea, self, "auto_commit", "&Commit", box=False)
class OWClusterAnalysis(OWWidget): name = "Cluster Analysis" description = "The widget displays differentially expressed genes that characterize the cluster, " \ "and corresponding gene terms that describe differentially expressed genes" icon = "../widgets/icons/OWClusterAnalysis.svg" priority = 100 class Inputs: data_table = Input('Data', Table) custom_sets = Input('Custom Gene Sets', Table) class Outputs: selected_data = Output('Selected Data', Table) gene_scores = Output('Gene Scores', Table) gene_set_scores = Output('Gene Set Scores', Table) class Information(OWWidget.Information): pass class Warning(OWWidget.Warning): gene_enrichment = Msg('{}, {}.') no_selected_gene_sets = Msg( 'No gene set selected, select them from Gene Sets box.') class Error(OWWidget.Error): no_cluster_indicator = Msg('No cluster indicator in the input data') gene_as_attributes = Msg( 'Genes, in the input data, are expected as column names') organism_mismatch = Msg( 'Organism in input data and custom gene sets does not match') cluster_batch_conflict = Msg( 'Cluster and batch must not be the same variable') settingsHandler = ClusterAnalysisContextHandler() cluster_indicators = ContextSetting([]) batch_indicator = ContextSetting(None) stored_gene_sets_selection = ContextSetting(tuple()) scoring_method_selection = ContextSetting(0) scoring_method_design = ContextSetting(0) scoring_test_type = ContextSetting(0) # genes filter max_gene_count = Setting(20) use_gene_count_filter = Setting(True) max_gene_p_value = Setting(0.1) use_gene_pval_filter = Setting(False) max_gene_fdr = Setting(0.1) use_gene_fdr_filter = Setting(True) # gene sets filter min_gs_count = Setting(5) use_gs_count_filter = Setting(True) max_gs_p_value = Setting(0.1) use_gs_pval_filter = Setting(False) max_gs_fdr = Setting(0.1) use_gs_max_fdr = Setting(True) # auto commit results auto_commit = settings.Setting(False) custom_gene_set_indicator = settings.Setting(None) def __init__(self): super().__init__() # widget attributes self.input_data = None self.store_input_domain = None self.input_genes_names = [] self.input_genes_ids = [] self.tax_id = None self.use_attr_names = None self.gene_id_attribute = None # custom gene set input self.feature_model = itemmodels.DomainModel( valid_types=(DiscreteVariable, StringVariable)) self.custom_data = None self.custom_tax_id = None self.custom_use_attr_names = None self.custom_gene_id_attribute = None self.custom_gene_id_column = None self.num_of_custom_sets = None self.rows_by_cluster = None self.rows_by_batch = None self.clusters = [] self.new_cluster_profile = [] # data model self.cluster_info_model = None # Info info_box = vBox(self.controlArea, 'Info') self.input_info = widgetLabel(info_box) # Cluster selection self.cluster_indicator_model = itemmodels.DomainModel( valid_types=(DiscreteVariable, ), separators=False) self.cluster_indicator_box = widgetBox(self.controlArea, 'Cluster Indicator') self.cluster_indicator_view = listView( self.cluster_indicator_box, self, 'cluster_indicators', model=self.cluster_indicator_model, selectionMode=QListWidget.MultiSelection, callback=self.invalidate, sizeHint=QSize(256, 70)) # Batch selection self.batch_indicator_model = itemmodels.DomainModel( valid_types=(DiscreteVariable, ), separators=False, placeholder="") box = widgetBox(self.controlArea, 'Batch Indicator') self.batch_indicator_combobox = comboBox( box, self, 'batch_indicator', model=self.batch_indicator_model, sendSelectedValue=True, callback=self.batch_indicator_changed) # Gene scoring box = widgetBox(self.controlArea, 'Gene Scoring') self.gene_scoring = GeneScoringWidget(box, self) self.gene_scoring.set_method_selection_area('scoring_method_selection') self.gene_scoring.set_method_design_area('scoring_method_design') self.gene_scoring.set_test_type('scoring_test_type') # Gene Sets widget gene_sets_box = widgetBox(self.controlArea, "Gene Sets") self.gs_widget = GeneSetsSelection(gene_sets_box, self, 'stored_gene_sets_selection') self.gs_widget.hierarchy_tree_widget.itemClicked.connect( self.__gene_sets_enrichment) # custom gene sets area box = vBox(self.controlArea, "Custom Gene Sets") if self.custom_gene_set_indicator not in self.feature_model: self.custom_gene_set_indicator = None self.gs_label_combobox = comboBox( box, self, "custom_gene_set_indicator", sendSelectedValue=True, model=self.feature_model, callback=self.handle_custom_gene_sets) self.gs_label_combobox.setDisabled(True) # main area splitter = QSplitter(Qt.Horizontal, self.mainArea) self.mainArea.layout().addWidget(splitter) genes_filter = widgetBox(splitter, 'Filter Genes', orientation=QHBoxLayout()) spin(genes_filter, self, 'max_gene_count', 0, 10000, label='Count', tooltip='Minimum genes count', checked='use_gene_count_filter', callback=self.filter_genes, callbackOnReturn=True, checkCallback=self.filter_genes) doubleSpin(genes_filter, self, 'max_gene_p_value', 0.0, 1.0, 0.0001, label='p-value', tooltip='Maximum p-value of the enrichment score', checked='use_gene_pval_filter', callback=self.filter_genes, callbackOnReturn=True, checkCallback=self.filter_genes) doubleSpin(genes_filter, self, 'max_gene_fdr', 0.0, 1.0, 0.0001, label='FDR', tooltip='Maximum false discovery rate', checked='use_gene_fdr_filter', callback=self.filter_genes, callbackOnReturn=True, checkCallback=self.filter_genes) gene_sets_filter = widgetBox(splitter, 'Filter Gene Sets', orientation=QHBoxLayout()) spin(gene_sets_filter, self, 'min_gs_count', 0, DISPLAY_GENE_SETS_COUNT, label='Count', tooltip='Minimum genes count', checked='use_gs_count_filter', callback=self.filter_gene_sets, callbackOnReturn=True, checkCallback=self.filter_gene_sets) doubleSpin(gene_sets_filter, self, 'max_gs_p_value', 0.0, 1.0, 0.0001, label='p-value', tooltip='Maximum p-value of the enrichment score', checked='use_gs_pval_filter', callback=self.filter_gene_sets, callbackOnReturn=True, checkCallback=self.filter_gene_sets) doubleSpin(gene_sets_filter, self, 'max_gs_fdr', 0.0, 1.0, 0.0001, label='FDR', tooltip='Maximum false discovery rate', checked='use_gs_max_fdr', callback=self.filter_gene_sets, callbackOnReturn=True, checkCallback=self.filter_gene_sets) self.cluster_info_view = QTableView() self.cluster_info_view.verticalHeader().setVisible(False) self.cluster_info_view.setItemDelegate(HTMLDelegate()) self.cluster_info_view.horizontalHeader().hide() self.cluster_info_view.horizontalHeader().setSectionResizeMode( QHeaderView.Stretch) auto_commit(self.controlArea, self, "auto_commit", "&Commit", box=False) self.mainArea.layout().addWidget(self.cluster_info_view) def sizeHint(self): return QSize(800, 600) def __update_info_box(self): info_string = '' if self.input_genes_ids: info_string += '{} samples, {} clusters\n'.format( self.input_data.X.shape[0], len(self.clusters) if self.clusters else '?') info_string += '{:,d} unique genes\n'.format( len(self.input_genes_ids)) else: info_string += 'No genes on input.\n' if self.custom_data: info_string += '{} marker genes in {} sets\n'.format( self.custom_data.X.shape[0], self.num_of_custom_sets) self.input_info.setText(info_string) def __set_cluster_info_model(self): self.cluster_info_view.setModel(None) self.cluster_info_model = ClusterModel(self) self.cluster_info_model.add_rows(self.clusters) # add model to the view self.cluster_info_view.setModel(self.cluster_info_model) # call sizeHint function self.cluster_info_view.resizeRowsToContents() self.cluster_info_view.selectionModel().selectionChanged.connect( self.commit) def __create_temp_class_var(self): """ See no evil !""" cluster_indicator_name = 'Cluster indicators' var_index_lookup = dict([(val, idx) for var in self.cluster_indicators for idx, val in enumerate(var.values)]) row_profile = None new_cluster_values = [] cart_prod = itertools.product( *[cluster.values for cluster in self.cluster_indicators]) for comb in cart_prod: new_cluster_values.append(', '.join([val for val in comb])) self.new_cluster_profile.append( [var_index_lookup[val] for val in comb]) row_profile_lookup = dict([(tuple(profile), indx) for indx, ( profile, _) in enumerate(zip(self.new_cluster_profile, new_cluster_values)) ]) for var in self.cluster_indicators: if row_profile is None: row_profile = np.asarray( self.input_data.get_column_view(var)[0], dtype=int) else: row_profile = np.vstack( (row_profile, np.asarray(self.input_data.get_column_view(var)[0], dtype=int))) ca_ind = DiscreteVariable.make( cluster_indicator_name, values=[val for val in new_cluster_values], ordered=True) domain = Domain(self.input_data.domain.attributes, self.input_data.domain.class_vars, self.input_data.domain.metas + (ca_ind, )) table = self.input_data.transform(domain) table[:, ca_ind] = np.array( [[row_profile_lookup[tuple(row_profile[:, i])]] for i in range(row_profile.shape[1])]) self.input_data = table return ca_ind def __set_clusters(self): self.clusters = [] self.new_cluster_profile = [] self.cluster_var = None if self.cluster_indicators and self.input_data: if isinstance(self.cluster_indicators, list) and len(self.cluster_indicators) > 1: self.cluster_var = self.__create_temp_class_var() else: self.cluster_var = self.cluster_indicators[0] self.rows_by_cluster = np.asarray(self.input_data.get_column_view( self.cluster_var)[0], dtype=int) for index, name in enumerate(self.cluster_var.values): cluster = Cluster(name, index) self.clusters.append(cluster) cluster.set_genes(self.input_genes_names, self.input_genes_ids) def __set_batch(self): self.Error.cluster_batch_conflict.clear() self.rows_by_batch = None if self.batch_indicator == self.cluster_var: self.Error.cluster_batch_conflict() return if self.batch_indicator and self.input_data: self.rows_by_batch = np.asarray(self.input_data.get_column_view( self.batch_indicator)[0], dtype=int) def __set_genes(self): self.input_genes_names = [] self.input_genes_ids = [] if self.use_attr_names: for variable in self.input_data.domain.attributes: self.input_genes_names.append(str(variable.name)) self.input_genes_ids.append( str(variable.attributes.get(self.gene_id_attribute, np.nan))) def filter_genes(self): if self.cluster_info_model: # filter genes # note: after gene filter is applied, we need to recalculate gene set enrichment self.cluster_info_model.apply_gene_filters( self.max_gene_p_value if self.use_gene_pval_filter else None, self.max_gene_fdr if self.use_gene_fdr_filter else None, self.max_gene_count if self.use_gene_count_filter else None) # recalculate gene set enrichment self.__gene_sets_enrichment() # call sizeHint function self.cluster_info_view.resizeRowsToContents() # commit changes after filter self.commit() def filter_gene_sets(self): if self.cluster_info_model: # filter gene sets self.cluster_info_model.apply_gene_sets_filters( self.max_gs_p_value if self.use_gs_pval_filter else None, self.max_gs_fdr if self.use_gs_max_fdr else None, self.min_gs_count if self.use_gs_count_filter else None) # call sizeHint function self.cluster_info_view.resizeRowsToContents() def __gene_enrichment(self): design = bool(self.gene_scoring.get_selected_desig() ) # if true cluster vs. cluster else cluster vs rest test_type = self.gene_scoring.get_selected_test_type() method = self.gene_scoring.get_selected_method() try: if method.score_function == score_hypergeometric_test: values = set(np.unique(self.input_data.X)) if (0 not in values) or (len(values) != 2): raise ValueError('Binary data expected (use Preprocess)') self.cluster_info_model.score_genes( design=design, table_x=self.input_data.X, rows_by_cluster=self.rows_by_cluster, rows_by_batch=self.rows_by_batch, method=method, alternative=test_type) except ValueError as e: self.Warning.gene_enrichment(str(e), 'p-values are set to 1') def __gene_sets_enrichment(self): if self.input_data: self.Warning.no_selected_gene_sets.clear() all_sets = self.gs_widget.get_hierarchies() selected_sets = self.gs_widget.get_hierarchies(only_selected=True) if len(selected_sets) == 0 and len(all_sets) > 0: self.Warning.no_selected_gene_sets() # save setting on selected hierarchies self.stored_gene_sets_selection = tuple(selected_sets) ref_genes = set(self.input_genes_ids) try: self.cluster_info_model.gene_sets_enrichment( self.gs_widget.gs_object, selected_sets, ref_genes) except Exception as e: # TODO: possible exceptions? raise e self.filter_gene_sets() def invalidate(self, cluster_init=True): if self.input_data is not None and self.tax_id is not None: self.Warning.gene_enrichment.clear() if self.cluster_info_model is not None: self.cluster_info_model.cancel() self.__set_genes() if cluster_init: self.__set_clusters() self.__set_batch() self.__set_cluster_info_model() # note: when calling self.__gene_enrichment we calculate gse automatically. # No need to call self.__gene_sets_enrichment here self.__gene_enrichment() self.__update_info_box() def batch_indicator_changed(self): self.invalidate(cluster_init=False) @Inputs.data_table def handle_input(self, data): self.closeContext() self.Warning.clear() self.Error.clear() self.input_data = None self.store_input_domain = None self.stored_gene_sets_selection = tuple() self.input_genes_names = [] self.input_genes_ids = [] self.tax_id = None self.use_attr_names = None self.gene_id_attribute = None self.clusters = None self.gs_widget.clear() self.gs_widget.clear_gene_sets() self.cluster_info_view.setModel(None) self.cluster_indicators = [] self.cluster_var = None self.batch_indicator = None self.cluster_indicator_model.set_domain(None) self.batch_indicator_model.set_domain(None) self.__update_info_box() if data: self.input_data = data self.cluster_indicator_model.set_domain(self.input_data.domain) self.batch_indicator_model.set_domain(self.input_data.domain) # For Cluster Indicator do not use categorical variables that contain only one value. self.cluster_indicator_model.wrap([ item for item in self.cluster_indicator_model if len(item.values) > 1 ]) # First value in batch indicator model is a NoneType, # we can skip it when we validate categorical variables self.batch_indicator_model.wrap(self.batch_indicator_model[:1] + [ item for item in self.batch_indicator_model[1:] if len(item.values) > 1 ]) self.tax_id = self.input_data.attributes.get(TAX_ID, None) self.use_attr_names = self.input_data.attributes.get( GENE_AS_ATTRIBUTE_NAME, None) self.gene_id_attribute = self.input_data.attributes.get( GENE_ID_ATTRIBUTE, None) if not self.cluster_indicator_model: self.Error.no_cluster_indicator() return elif not self.use_attr_names: self.Error.gene_as_attributes() return self.openContext(self.input_data.domain) self.gs_widget.load_gene_sets(self.tax_id) if self.cluster_indicator_model and len( self.cluster_indicators) < 1: self.cluster_indicators = [self.cluster_indicator_model[0]] if self.batch_indicator_model and self.batch_indicator is None: self.batch_indicator = self.batch_indicator_model[0] self.invalidate() if self.custom_data: self.refresh_custom_gene_sets() self._handle_future_model() self.handle_custom_gene_sets() @Inputs.custom_sets def handle_custom_input(self, data): self.Error.clear() self.Warning.clear() self.closeContext() self.custom_data = None self.custom_tax_id = None self.custom_use_attr_names = None self.custom_gene_id_attribute = None self.custom_gene_id_column = None self.num_of_custom_sets = None self.feature_model.set_domain(None) if data: self.custom_data = data self.feature_model.set_domain(self.custom_data.domain) self.custom_tax_id = str( self.custom_data.attributes.get(TAX_ID, None)) self.custom_use_attr_names = self.custom_data.attributes.get( GENE_AS_ATTRIBUTE_NAME, None) self.custom_gene_id_attribute = self.custom_data.attributes.get( GENE_ID_ATTRIBUTE, None) self.custom_gene_id_column = self.custom_data.attributes.get( GENE_ID_COLUMN, None) self._handle_future_model() if self.input_data: self.openContext(self.input_data.domain) self.gs_label_combobox.setDisabled(True) self.refresh_custom_gene_sets() self.handle_custom_gene_sets(select_customs_flag=True) def __check_organism_mismatch(self): """ Check if organisms from different inputs match. :return: True if there is a mismatch """ if self.tax_id is not None and self.custom_tax_id is not None: return self.tax_id != self.custom_tax_id return False def _handle_future_model(self): if self.custom_gene_set_indicator in self.feature_model: index = self.feature_model.indexOf(self.custom_gene_set_indicator) self.custom_gene_set_indicator = self.feature_model[index] else: if self.feature_model: self.custom_gene_set_indicator = self.feature_model[0] else: self.custom_gene_set_indicator = None def handle_custom_gene_sets(self, select_customs_flag=False): if self.custom_gene_set_indicator: if self.custom_data is not None and self.custom_gene_id_column is not None: if self.__check_organism_mismatch(): self.gs_label_combobox.setDisabled(True) self.Error.organism_mismatch() self.gs_widget.update_gs_hierarchy() self.__gene_sets_enrichment() return if isinstance(self.custom_gene_set_indicator, DiscreteVariable): labels = self.custom_gene_set_indicator.values gene_sets_names = [ labels[int(idx)] for idx in self.custom_data.get_column_view( self.custom_gene_set_indicator)[0] ] else: gene_sets_names, _ = self.custom_data.get_column_view( self.custom_gene_set_indicator) self.num_of_custom_sets = len(set(gene_sets_names)) gene_names, _ = self.custom_data.get_column_view( self.custom_gene_id_column) hierarchy_title = (self.custom_data.name if self.custom_data.name else 'Custom sets', ) try: self.gs_widget.add_custom_sets( gene_sets_names, gene_names, hierarchy_title=hierarchy_title, select_customs_flag=select_customs_flag) except GeneSetException: pass self.gs_label_combobox.setDisabled(False) else: self.gs_widget.update_gs_hierarchy() self.__gene_sets_enrichment() self.__update_info_box() def refresh_custom_gene_sets(self): self.gs_widget.clear_custom_sets() # self.gs_widget.update_gs_hierarchy() def gene_scores_output(self, selected_clusters): metas = [ StringVariable('Gene'), StringVariable(NCBI_ID), StringVariable('Rank'), ContinuousVariable('Statistic score'), ContinuousVariable('P-value'), ContinuousVariable('FDR') ] if len(self.new_cluster_profile): # note: order is important metas = self.cluster_indicators + metas domain = Domain([], metas=metas, class_vars=self.cluster_var) data = [] for cluster in selected_clusters: num_of_genes = len(cluster.filtered_genes) scores = [gene.score for gene in cluster.filtered_genes] p_vals = [gene.p_val for gene in cluster.filtered_genes] fdr_vals = [gene.fdr for gene in cluster.filtered_genes] gene_names = [gene.input_name for gene in cluster.filtered_genes] gene_ids = [gene.ncbi_id for gene in cluster.filtered_genes] rank = rankdata(p_vals, method='min') if len(self.new_cluster_profile): profiles = [[cluster.index] * num_of_genes] [ profiles.append([p] * num_of_genes) for p in self.new_cluster_profile[cluster.index] ] else: profiles = [[cluster.index] * num_of_genes] for row in zip(*profiles, gene_names, gene_ids, rank, scores, p_vals, fdr_vals): data.append(list(row)) out_data = Table(domain, data) out_data.attributes[TAX_ID] = self.tax_id out_data.attributes[GENE_AS_ATTRIBUTE_NAME] = False out_data.attributes[GENE_ID_COLUMN] = NCBI_ID self.Outputs.gene_scores.send(out_data) def gene_set_scores_output(self, selected_clusters): metas = [ StringVariable('Term'), StringVariable('Term ID'), StringVariable('Rank'), ContinuousVariable('P-value'), ContinuousVariable('FDR') ] if len(self.new_cluster_profile): # note: order is important metas = self.cluster_indicators + metas domain = Domain([], metas=metas, class_vars=self.cluster_var) data = [] for cluster in selected_clusters: num_of_sets = len(cluster.filtered_gene_sets) p_vals = [gs.p_val for gs in cluster.filtered_gene_sets] fdr_vals = [gs.fdr for gs in cluster.filtered_gene_sets] gs_names = [gs.name for gs in cluster.filtered_gene_sets] gs_ids = [gs.gs_id for gs in cluster.filtered_gene_sets] rank = rankdata(p_vals, method='min') if len(self.new_cluster_profile): profiles = [[cluster.index] * num_of_sets] [ profiles.append([p] * num_of_sets) for p in self.new_cluster_profile[cluster.index] ] else: profiles = [[cluster.index] * num_of_sets] for row in zip(*profiles, gs_names, gs_ids, rank, p_vals, fdr_vals): data.append(list(row)) self.Outputs.gene_set_scores.send(Table(domain, data)) def commit(self): selection_model = self.cluster_info_view.selectionModel() selected_rows = selection_model.selectedRows() selected_clusters = [] selected_cluster_indexes = set() selected_cluster_genes = set() if not self.input_data or not selected_rows: self.Outputs.selected_data.send(None) return for sel_row in selected_rows: cluster = sel_row.data() selected_clusters.append(cluster) selected_cluster_indexes.add(cluster.index) [ selected_cluster_genes.add(gene.ncbi_id) for gene in cluster.filtered_genes ] # get columns of selected clusters selected_columns = [ column for column in self.input_data.domain.attributes if self.gene_id_attribute in column.attributes and str(column.attributes[ self.gene_id_attribute]) in selected_cluster_genes ] domain = Domain(selected_columns, self.input_data.domain.class_vars, self.input_data.domain.metas) output_data = self.input_data.from_table(domain, self.input_data) # get rows of selected clusters selected_rows = [ row_index for row_index, col_index in enumerate(self.rows_by_cluster) if col_index in selected_cluster_indexes ] # send to output signal self.Outputs.selected_data.send(output_data[selected_rows]) self.gene_scores_output(selected_clusters) self.gene_set_scores_output(selected_clusters)
def __init__(self): super().__init__() # widget attributes self.input_data = None self.store_input_domain = None self.input_genes_names = [] self.input_genes_ids = [] self.tax_id = None self.use_attr_names = None self.gene_id_attribute = None # custom gene set input self.feature_model = itemmodels.DomainModel( valid_types=(DiscreteVariable, StringVariable)) self.custom_data = None self.custom_tax_id = None self.custom_use_attr_names = None self.custom_gene_id_attribute = None self.custom_gene_id_column = None self.num_of_custom_sets = None self.rows_by_cluster = None self.rows_by_batch = None self.clusters = [] self.new_cluster_profile = [] # data model self.cluster_info_model = None # Info info_box = vBox(self.controlArea, 'Info') self.input_info = widgetLabel(info_box) # Cluster selection self.cluster_indicator_model = itemmodels.DomainModel( valid_types=(DiscreteVariable, ), separators=False) self.cluster_indicator_box = widgetBox(self.controlArea, 'Cluster Indicator') self.cluster_indicator_view = listView( self.cluster_indicator_box, self, 'cluster_indicators', model=self.cluster_indicator_model, selectionMode=QListWidget.MultiSelection, callback=self.invalidate, sizeHint=QSize(256, 70)) # Batch selection self.batch_indicator_model = itemmodels.DomainModel( valid_types=(DiscreteVariable, ), separators=False, placeholder="") box = widgetBox(self.controlArea, 'Batch Indicator') self.batch_indicator_combobox = comboBox( box, self, 'batch_indicator', model=self.batch_indicator_model, sendSelectedValue=True, callback=self.batch_indicator_changed) # Gene scoring box = widgetBox(self.controlArea, 'Gene Scoring') self.gene_scoring = GeneScoringWidget(box, self) self.gene_scoring.set_method_selection_area('scoring_method_selection') self.gene_scoring.set_method_design_area('scoring_method_design') self.gene_scoring.set_test_type('scoring_test_type') # Gene Sets widget gene_sets_box = widgetBox(self.controlArea, "Gene Sets") self.gs_widget = GeneSetsSelection(gene_sets_box, self, 'stored_gene_sets_selection') self.gs_widget.hierarchy_tree_widget.itemClicked.connect( self.__gene_sets_enrichment) # custom gene sets area box = vBox(self.controlArea, "Custom Gene Sets") if self.custom_gene_set_indicator not in self.feature_model: self.custom_gene_set_indicator = None self.gs_label_combobox = comboBox( box, self, "custom_gene_set_indicator", sendSelectedValue=True, model=self.feature_model, callback=self.handle_custom_gene_sets) self.gs_label_combobox.setDisabled(True) # main area splitter = QSplitter(Qt.Horizontal, self.mainArea) self.mainArea.layout().addWidget(splitter) genes_filter = widgetBox(splitter, 'Filter Genes', orientation=QHBoxLayout()) spin(genes_filter, self, 'max_gene_count', 0, 10000, label='Count', tooltip='Minimum genes count', checked='use_gene_count_filter', callback=self.filter_genes, callbackOnReturn=True, checkCallback=self.filter_genes) doubleSpin(genes_filter, self, 'max_gene_p_value', 0.0, 1.0, 0.0001, label='p-value', tooltip='Maximum p-value of the enrichment score', checked='use_gene_pval_filter', callback=self.filter_genes, callbackOnReturn=True, checkCallback=self.filter_genes) doubleSpin(genes_filter, self, 'max_gene_fdr', 0.0, 1.0, 0.0001, label='FDR', tooltip='Maximum false discovery rate', checked='use_gene_fdr_filter', callback=self.filter_genes, callbackOnReturn=True, checkCallback=self.filter_genes) gene_sets_filter = widgetBox(splitter, 'Filter Gene Sets', orientation=QHBoxLayout()) spin(gene_sets_filter, self, 'min_gs_count', 0, DISPLAY_GENE_SETS_COUNT, label='Count', tooltip='Minimum genes count', checked='use_gs_count_filter', callback=self.filter_gene_sets, callbackOnReturn=True, checkCallback=self.filter_gene_sets) doubleSpin(gene_sets_filter, self, 'max_gs_p_value', 0.0, 1.0, 0.0001, label='p-value', tooltip='Maximum p-value of the enrichment score', checked='use_gs_pval_filter', callback=self.filter_gene_sets, callbackOnReturn=True, checkCallback=self.filter_gene_sets) doubleSpin(gene_sets_filter, self, 'max_gs_fdr', 0.0, 1.0, 0.0001, label='FDR', tooltip='Maximum false discovery rate', checked='use_gs_max_fdr', callback=self.filter_gene_sets, callbackOnReturn=True, checkCallback=self.filter_gene_sets) self.cluster_info_view = QTableView() self.cluster_info_view.verticalHeader().setVisible(False) self.cluster_info_view.setItemDelegate(HTMLDelegate()) self.cluster_info_view.horizontalHeader().hide() self.cluster_info_view.horizontalHeader().setSectionResizeMode( QHeaderView.Stretch) auto_commit(self.controlArea, self, "auto_commit", "&Commit", box=False) self.mainArea.layout().addWidget(self.cluster_info_view)