def run_integral(integral_ranges, mask, integral, detector, state): ranges = parse_range(integral_ranges) input_workspaces = load_workspace(state) is_multi_range = len (ranges) > 1 output_workspaces = [] for input_workspace in input_workspaces: input_workspace_name = input_workspace.name() if is_multi_range: AnalysisDataService.remove(input_workspace_name + '_ranges') input_workspace = crop_workspace(DetectorType.to_string(detector), input_workspace) if mask: input_workspace = apply_mask(state, input_workspace, DetectorType.to_string(detector)) x_dim, y_dim = get_detector_size_from_sans_file(state, detector) output_workspace = integrate_ranges(ranges, integral, mask, detector, input_workspace_name, input_workspace, x_dim, y_dim, is_multi_range) plot_graph(output_workspace) output_workspaces.append(output_workspace) return output_workspaces
def run_integral(integral_ranges, mask, integral, detector, state): ranges = parse_range(integral_ranges) input_workspaces = load_workspace(state) is_multi_range = len(ranges) > 1 output_workspaces = [] for input_workspace in input_workspaces: input_workspace_name = input_workspace.name() if is_multi_range: AnalysisDataService.remove(input_workspace_name + '_ranges') input_workspace = crop_workspace(DetectorType.to_string(detector), input_workspace) if mask: input_workspace = apply_mask(state, input_workspace, DetectorType.to_string(detector)) x_dim, y_dim = get_detector_size_from_sans_file(state, detector) output_workspace = integrate_ranges(ranges, integral, mask, detector, input_workspace_name, input_workspace, x_dim, y_dim, is_multi_range) plot_graph(output_workspace) output_workspaces.append(output_workspace) return output_workspaces
def run_integral(self, integral_ranges, mask, integral, detector, state): ranges = self._parse_range(integral_ranges) input_workspaces = self._load_workspace(state) is_multi_range = len(ranges) > 1 output_workspaces = [] for input_workspace in input_workspaces: input_workspace_name = input_workspace.name() if is_multi_range: AnalysisDataService.remove(input_workspace_name + '_ranges') input_workspace = self._crop_workspace(detector.value, input_workspace) if mask: input_workspace = self._apply_mask(state, input_workspace, detector.value) x_dim, y_dim = self._get_detector_size_from_sans_file( state, detector) output_workspace = self._integrate_ranges(ranges, integral, mask, detector, input_workspace_name, input_workspace, x_dim, y_dim, is_multi_range) self._plot_graph(output_workspace) output_workspaces.append(output_workspace) return output_workspaces