Esempio n. 1
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    def __init__(self, file_dir, yml_file=None, gui=False, host_flask=False, selected_reader=MQReader.MQReader, loglevel=logging.DEBUG, configs: dict = None):
        base_config = {
            "has_replicates": False,
            "has_groups": False,
        }
        if configs is None:
            configs = {}
        base_config.update(**configs)
        configs = base_config

        if gui and host_flask:
            raise ValueError("Can only specify one of host_flask and gui")
        if gui:
            MSPGUI(file_dir=file_dir, yml_file=yml_file, loglevel=loglevel, configs=configs)
        elif host_flask:
            # TODO pass arguments to create app
            app = create_app()
            app.run(debug=True)
        else:
            mspinit = MSPInitializer(file_dir, yml_file, loglevel=loglevel)
            mspinit.init_config()
            mspinit.configs.update(configs)
            mspinit.read_data()
            # create plotter from initializer
            mspplots = selected_reader.plotter.from_MSPInitializer(mspinit)
            # create all plots and other results
            mspplots.create_results()
Esempio n. 2
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    def __init__(self,
                 file_dir,
                 yml_file=None,
                 gui=False,
                 host_flask=False,
                 selected_reader=MQReader.MQReader,
                 loglevel=logging.DEBUG,
                 configs: dict = None):
        """
        Parameters
        ----------
        file_dir
            location where the directory/txt folder to the data can be found.
        yml_file
            path to the yaml config file
        gui
            should a GUI be compiled
        host_flask
            currently not implemented (should a flsk server be hosted)
        selected_reader
            instance of an :class:`~BaseReader` used to process data to an internal format for the plotter.
        loglevel
            level of the logger
        configs
            mapping of configuration
        """
        base_config = {
            "has_techrep": False,
            "has_groups": False,
        }
        if configs is None:
            configs = {}
        base_config.update(**configs)
        configs = base_config

        if gui and host_flask:
            raise ValueError("Can only specify one of host_flask and gui")
        if gui:
            MSPGUI(file_dir=file_dir,
                   yml_file=yml_file,
                   loglevel=loglevel,
                   configs=configs)
        elif host_flask:
            # TODO pass arguments to create app
            app = create_app()
            app.run(debug=True)
        else:
            mspinit = MSPInitializer(file_dir, yml_file, loglevel=loglevel)
            mspinit.init_config()
            mspinit.configs.update(configs)
            mspinit.read_data()
            # create plotter from initializer
            mspplots = selected_reader.plotter.from_MSPInitializer(mspinit)
            # create all plots and other results
            mspplots.create_results()
Esempio n. 3
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    def __init__(self,
                 file_dir,
                 yml_file=None,
                 loglevel=logging.DEBUG,
                 configs: dict = None):
        super().__init__()
        self.yaml_options = ["default"]
        self.reader_options = {
            reader.name: reader
            for reader in BaseReader.__subclasses__()
        }
        self.selected_reader = MQReader.MQReader
        self.normalize_options = ["None"] + list(default_normalizers.keys())

        self.number_of_plots = 0

        self.plot_settings = {}
        self.intensity_options = ["lfq_log2", "raw_log2", "ibaq_log2"]
        #,"lfq_normalized_log2", "raw_normalized_log2", "ibaq_normalized_log2]

        self.title("mspypeline")

        path_label = tk.Label(self,
                              text="Dir to analyze",
                              font="Helvetica 10 bold").grid(row=0, column=0)

        yaml_label = tk.Label(self, text="Yaml file",
                              font="Helvetica 10 bold").grid(row=0, column=1)

        reader_label = tk.Label(self,
                                text="File reader",
                                font="Helvetica 10 bold").grid(row=0, column=2)

        self.dir_text = tk.StringVar(value=file_dir)
        dir_button = tk.Button(
            self,
            textvariable=self.dir_text,
            command=lambda: browsefunc(
                filedialog.askdirectory,
                self.dir_text,
                fn_params={
                    "title":
                    "Please select a directory with MaxQuant result files"
                }))
        dir_button.grid(row=1, column=0)

        self.yaml_text = tk.StringVar()
        self.yaml_button = tk.OptionMenu(self, self.yaml_text,
                                         *self.yaml_options)
        self.yaml_button.grid(row=1, column=1)

        self.reader_text = tk.StringVar(value="mqreader")
        self.reader_button = tk.OptionMenu(self, self.reader_text,
                                           *self.reader_options.keys())
        self.reader_button.grid(row=1, column=2)

        self.replicate_var = tk.IntVar(value=1)
        replicate_button = tk.Checkbutton(
            self,
            text="Does the file have technical replicates?",
            variable=self.replicate_var).grid(row=2, column=0)

        go_proteins_label = tk.Label(self, text="Go analysis proteins").grid(
            row=3, column=0)

        experiments_label = tk.Label(self,
                                     text="Pathway analysis").grid(row=3,
                                                                   column=1)

        design_label = tk.Label(self, text="Replicate names").grid(row=3,
                                                                   column=2)

        self.go_proteins_list = tk.Listbox(self,
                                           selectmode="multiple",
                                           height=5,
                                           width=len(
                                               max(MSPInitializer.possible_gos,
                                                   key=len)))
        self.go_proteins_list.configure(exportselection=False)
        for x in MSPInitializer.possible_gos:
            self.go_proteins_list.insert("end", x)

        self.go_proteins_list.grid(row=4, column=0)

        self.pathway_list = tk.Listbox(
            self,
            selectmode="multiple",
            height=5,
            width=len(max(MSPInitializer.possible_pathways, key=len)))
        self.pathway_list.configure(exportselection=False)
        for x in MSPInitializer.possible_pathways:
            self.pathway_list.insert("end", x)

        self.pathway_list.grid(row=4, column=1)

        self.experiments_list = tk.Listbox(self, height=5)
        self.experiments_list.grid(row=4, column=2)

        report_button = tk.Button(self,
                                  text="Create Report",
                                  command=lambda: self.report_button())
        report_button.grid(row=5, column=0)

        plot_label = tk.Label(self, text="Which plots should be created").grid(
            row=6, column=0)

        intensity_label = tk.Label(self, text="Intensities").grid(row=6,
                                                                  column=1)

        levels_label = tk.Label(self, text="Levels").grid(row=6, column=2)

        self.heading_length = 7

        tk.Label(self, text="Normalization plots",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=0)
        self.number_of_plots += 1
        self.plot_row("Normalization overview",
                      "normalization_overview_all_normalizers")
        self.plot_row("Heatmap overview", "heatmap_overview_all_normalizers")

        tk.Label(self,
                 text="Choose a Normalization Method:",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=1)
        self.number_of_plots += 1
        self.plot_intermediate_row("Choose a Normalization Method")

        tk.Label(self,
                 text="Outlier detection / Comparisons",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=0)
        self.number_of_plots += 1
        self.plot_row("Detection counts", "detection_counts")
        self.plot_row("Number of detected proteins",
                      "detected_proteins_per_replicate")
        self.plot_row("Venn diagrams", "venn_results")
        self.plot_row("Group diagrams", "venn_groups")
        self.plot_row("PCA overview", "pca_overview")
        self.plot_row("Intensity histogram", "intensity_histograms")
        self.plot_row("Relative std", "relative_std")
        self.plot_row("Scatter replicates", "scatter_replicates")
        self.plot_row("Experiment comparison", "experiment_comparison")
        self.plot_row("Rank", "rank")

        tk.Label(self, text="Statistical inference",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=0)
        self.number_of_plots += 1
        self.plot_row("Pathway Analysis", "pathway_analysis")
        #self.plot_row("Pathway Timecourse", "pathway_timecourse")
        self.plot_row("Go analysis", "go_analysis")
        self.plot_row("Volcano plot (R)", "r_volcano")
        self.p_val_var = tk.IntVar(value=1)
        pval_button = tk.Checkbutton(
            self, text="Use adjusted p value", variable=self.p_val_var).grid(
                row=self.heading_length + self.number_of_plots, column=1)

        total_length = self.heading_length + self.number_of_plots

        update_button = tk.Button(self,
                                  text="Update",
                                  command=lambda: self.update_button())
        update_button.grid(row=total_length + 1, column=1)

        start_button = tk.Button(self,
                                 text="Start",
                                 command=lambda: self.start_button())
        start_button.grid(row=total_length + 1, column=2)

        self.running_text = tk.StringVar(value="Please press Start")
        self.running_label = tk.Label(
            self, textvariable=self.running_text).grid(row=total_length + 2,
                                                       column=2)

        # add all tracing to the variables
        self.dir_text.trace("w", self.dir_setter)
        self.yaml_text.trace("w", self.yaml_path_setter)
        self.reader_text.trace("w", self.reader_setter)
        # make the GUI resizable
        self.columnconfigure(0, weight=1)
        self.rowconfigure(0, weight=1)

        # here we set the configurations
        # constructing the class reads the yaml file once
        self.mspinit = MSPInitializer(file_dir, yml_file, loglevel=loglevel)
        if file_dir:
            # the dir setting reads the yaml file twice, once after setting the dir, then after setting the yaml path
            self.dir_text.set(file_dir)
        self.mspinit.configs.update(configs)
        self.mainloop()
Esempio n. 4
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class MSPGUI(tk.Tk):
    def __init__(self,
                 file_dir,
                 yml_file=None,
                 loglevel=logging.DEBUG,
                 configs: dict = None):
        super().__init__()
        self.yaml_options = ["default"]
        self.reader_options = {
            reader.name: reader
            for reader in BaseReader.__subclasses__()
        }
        self.selected_reader = MQReader.MQReader
        self.normalize_options = ["None"] + list(default_normalizers.keys())

        self.number_of_plots = 0

        self.plot_settings = {}
        self.intensity_options = ["lfq_log2", "raw_log2", "ibaq_log2"]
        #,"lfq_normalized_log2", "raw_normalized_log2", "ibaq_normalized_log2]

        self.title("mspypeline")

        path_label = tk.Label(self,
                              text="Dir to analyze",
                              font="Helvetica 10 bold").grid(row=0, column=0)

        yaml_label = tk.Label(self, text="Yaml file",
                              font="Helvetica 10 bold").grid(row=0, column=1)

        reader_label = tk.Label(self,
                                text="File reader",
                                font="Helvetica 10 bold").grid(row=0, column=2)

        self.dir_text = tk.StringVar(value=file_dir)
        dir_button = tk.Button(
            self,
            textvariable=self.dir_text,
            command=lambda: browsefunc(
                filedialog.askdirectory,
                self.dir_text,
                fn_params={
                    "title":
                    "Please select a directory with MaxQuant result files"
                }))
        dir_button.grid(row=1, column=0)

        self.yaml_text = tk.StringVar()
        self.yaml_button = tk.OptionMenu(self, self.yaml_text,
                                         *self.yaml_options)
        self.yaml_button.grid(row=1, column=1)

        self.reader_text = tk.StringVar(value="mqreader")
        self.reader_button = tk.OptionMenu(self, self.reader_text,
                                           *self.reader_options.keys())
        self.reader_button.grid(row=1, column=2)

        self.replicate_var = tk.IntVar(value=1)
        replicate_button = tk.Checkbutton(
            self,
            text="Does the file have technical replicates?",
            variable=self.replicate_var).grid(row=2, column=0)

        go_proteins_label = tk.Label(self, text="Go analysis proteins").grid(
            row=3, column=0)

        experiments_label = tk.Label(self,
                                     text="Pathway analysis").grid(row=3,
                                                                   column=1)

        design_label = tk.Label(self, text="Replicate names").grid(row=3,
                                                                   column=2)

        self.go_proteins_list = tk.Listbox(self,
                                           selectmode="multiple",
                                           height=5,
                                           width=len(
                                               max(MSPInitializer.possible_gos,
                                                   key=len)))
        self.go_proteins_list.configure(exportselection=False)
        for x in MSPInitializer.possible_gos:
            self.go_proteins_list.insert("end", x)

        self.go_proteins_list.grid(row=4, column=0)

        self.pathway_list = tk.Listbox(
            self,
            selectmode="multiple",
            height=5,
            width=len(max(MSPInitializer.possible_pathways, key=len)))
        self.pathway_list.configure(exportselection=False)
        for x in MSPInitializer.possible_pathways:
            self.pathway_list.insert("end", x)

        self.pathway_list.grid(row=4, column=1)

        self.experiments_list = tk.Listbox(self, height=5)
        self.experiments_list.grid(row=4, column=2)

        report_button = tk.Button(self,
                                  text="Create Report",
                                  command=lambda: self.report_button())
        report_button.grid(row=5, column=0)

        plot_label = tk.Label(self, text="Which plots should be created").grid(
            row=6, column=0)

        intensity_label = tk.Label(self, text="Intensities").grid(row=6,
                                                                  column=1)

        levels_label = tk.Label(self, text="Levels").grid(row=6, column=2)

        self.heading_length = 7

        tk.Label(self, text="Normalization plots",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=0)
        self.number_of_plots += 1
        self.plot_row("Normalization overview",
                      "normalization_overview_all_normalizers")
        self.plot_row("Heatmap overview", "heatmap_overview_all_normalizers")

        tk.Label(self,
                 text="Choose a Normalization Method:",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=1)
        self.number_of_plots += 1
        self.plot_intermediate_row("Choose a Normalization Method")

        tk.Label(self,
                 text="Outlier detection / Comparisons",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=0)
        self.number_of_plots += 1
        self.plot_row("Detection counts", "detection_counts")
        self.plot_row("Number of detected proteins",
                      "detected_proteins_per_replicate")
        self.plot_row("Venn diagrams", "venn_results")
        self.plot_row("Group diagrams", "venn_groups")
        self.plot_row("PCA overview", "pca_overview")
        self.plot_row("Intensity histogram", "intensity_histograms")
        self.plot_row("Relative std", "relative_std")
        self.plot_row("Scatter replicates", "scatter_replicates")
        self.plot_row("Experiment comparison", "experiment_comparison")
        self.plot_row("Rank", "rank")

        tk.Label(self, text="Statistical inference",
                 font="Helvetica 10 bold").grid(row=self.heading_length +
                                                self.number_of_plots,
                                                column=0)
        self.number_of_plots += 1
        self.plot_row("Pathway Analysis", "pathway_analysis")
        #self.plot_row("Pathway Timecourse", "pathway_timecourse")
        self.plot_row("Go analysis", "go_analysis")
        self.plot_row("Volcano plot (R)", "r_volcano")
        self.p_val_var = tk.IntVar(value=1)
        pval_button = tk.Checkbutton(
            self, text="Use adjusted p value", variable=self.p_val_var).grid(
                row=self.heading_length + self.number_of_plots, column=1)

        total_length = self.heading_length + self.number_of_plots

        update_button = tk.Button(self,
                                  text="Update",
                                  command=lambda: self.update_button())
        update_button.grid(row=total_length + 1, column=1)

        start_button = tk.Button(self,
                                 text="Start",
                                 command=lambda: self.start_button())
        start_button.grid(row=total_length + 1, column=2)

        self.running_text = tk.StringVar(value="Please press Start")
        self.running_label = tk.Label(
            self, textvariable=self.running_text).grid(row=total_length + 2,
                                                       column=2)

        # add all tracing to the variables
        self.dir_text.trace("w", self.dir_setter)
        self.yaml_text.trace("w", self.yaml_path_setter)
        self.reader_text.trace("w", self.reader_setter)
        # make the GUI resizable
        self.columnconfigure(0, weight=1)
        self.rowconfigure(0, weight=1)

        # here we set the configurations
        # constructing the class reads the yaml file once
        self.mspinit = MSPInitializer(file_dir, yml_file, loglevel=loglevel)
        if file_dir:
            # the dir setting reads the yaml file twice, once after setting the dir, then after setting the yaml path
            self.dir_text.set(file_dir)
        self.mspinit.configs.update(configs)
        self.mainloop()

    def dir_setter(self, *args):
        start_dir = self.dir_text.get()
        if os.path.split(start_dir)[1] == "txt":
            start_dir = os.path.split(start_dir)[0]
        self.mspinit.start_dir = start_dir
        self.update_yaml_options()

    def update_yaml_options(self):
        if self.mspinit.has_yml_file():
            self.yaml_text.set("file")
            self.yaml_options = ["default", "file"]
            # next steps should also be done hy what the update button does?
        else:
            self.yaml_text.set("default")
            self.yaml_options = ["default"]
        self.yaml_button["menu"].delete(0, "end")
        for op in self.yaml_options:
            self.yaml_button["menu"].add_command(label=op,
                                                 command=tk._setit(
                                                     self.yaml_text, op))

    def update_listboxes(self):
        # delete all experiments then add from file
        self.experiments_list.delete(0, "end")
        for op in self.mspinit.configs.get(self.selected_reader.name,
                                           {}).get("all_replicates", []):
            self.experiments_list.insert("end", op)
        # clear selection then select from configs
        for i, pathway in enumerate(MSPInitializer.possible_pathways):
            self.pathway_list.select_clear(i)
        if self.mspinit.configs.get("pathways"):
            for pathway in self.mspinit.configs.get("pathways"):
                self.pathway_list.select_set(
                    MSPInitializer.possible_pathways.index(pathway))
        # clear selection then select from configs
        for i, go in enumerate(MSPInitializer.possible_gos):
            self.go_proteins_list.select_clear(i)
        if self.mspinit.configs.get("go_terms"):
            for go in self.mspinit.configs.get("go_terms"):
                self.go_proteins_list.select_set(
                    MSPInitializer.possible_gos.index(go))

    def yaml_path_setter(self, *args):
        self.mspinit.file_path_yaml = self.yaml_text.get()
        # get the reader class by the saved name
        self.selected_reader = self.reader_options.get(
            self.mspinit.configs.get("selected_reader", "mqreader"))
        reader_settings = self.mspinit.configs.get(self.selected_reader.name,
                                                   {})
        level_names = reader_settings.get("level_names", [])
        level_names = {i: name for i, name in enumerate(level_names)}
        levels = reader_settings.get("levels", 0)
        for plot_name in self.selected_reader.plotter.possible_plots:
            plot_settings_name = plot_name + "_settings"
            plot_settings = self.mspinit.configs.get(plot_settings_name, {})
            var_name = plot_name.replace("plot_", "") + "_var"
            int_name = var_name.replace("var", "int")
            levels_name = var_name.replace("var", "levels")
            # update all settings in the GUI
            self.plot_settings[int_name].set(
                plot_settings.get("create_plot", False))

            plot_intensities = plot_settings.get("dfs_to_use", [])
            self.plot_settings[var_name].update_selection(plot_intensities)

            plot_levels = plot_settings.get("levels", [])
            selected_levels = self.plot_settings[levels_name]
            selected_levels.update_options(
                [level_names.get(l, l) for l in range(levels)])
            selected_levels.update_selection(
                [level_names.get(pl, pl) for pl in plot_levels])
        self.replicate_var.set(self.mspinit.configs.get("has_techrep", True))
        self.p_val_var.set(
            self.mspinit.configs.get("plot_r_volcano_settings",
                                     {}).get("adj_pval", False))
        self.normalizer_text.set(
            self.mspinit.configs.get("selected_normalizer", "None"))
        self.update_listboxes()

    def reader_setter(self, *args):
        self.selected_reader = self.reader_options[self.reader_text.get()]

    def update_button(self):
        self.mspinit.configs["has_techrep"] = bool(self.replicate_var.get())
        self.mspinit.configs["selected_reader"] = str(self.reader_text.get())
        self.mspinit.configs["selected_normalizer"] = str(
            self.normalizer_text.get())
        reader_settings = self.mspinit.configs.get(self.selected_reader.name,
                                                   {})
        level_names = reader_settings.get("level_names", [])
        level_names = {name: i for i, name in enumerate(level_names)}
        for plot_name in self.selected_reader.plotter.possible_plots:
            plot_settings = plot_name + "_settings"
            var_name = plot_name.replace("plot_", "") + "_var"
            int_name = var_name.replace("var", "int")
            levels_name = var_name.replace("var", "levels")
            selected_settings = {
                "create_plot":
                bool(self.plot_settings[int_name].get()),
                "dfs_to_use": [
                    k for k, v in
                    self.plot_settings[var_name].get_selection().items() if v
                ],
                "levels": [
                    level_names.get(k, k) for k, v in
                    self.plot_settings[levels_name].get_selection().items()
                    if v
                ]
            }
            additional_settings = self.mspinit.configs.get(plot_settings, {})
            additional_settings = {
                k: v
                for k, v in additional_settings.items()
                if k != "create_plot" and k != "dfs_to_use" and k != "levels"
            }
            selected_settings.update(additional_settings)
            self.mspinit.configs.update({plot_settings: selected_settings})
        gos = self.go_proteins_list.curselection()
        gos = [MSPInitializer.possible_gos[int(go)] for go in gos]
        pathways = self.pathway_list.curselection()
        pathways = [
            MSPInitializer.possible_pathways[int(pathway)]
            for pathway in pathways
        ]
        self.mspinit.configs["plot_r_volcano_settings"]["adj_pval"] = bool(
            self.p_val_var.get())
        self.mspinit.configs["go_terms"] = gos
        self.mspinit.configs["pathways"] = pathways
        self.mspinit.init_config()
        self.mspinit.read_data()
        self.update_listboxes()
        self.update_yaml_options()

    def start_button(self):
        self.running_text.set("Creating Plots")
        self.update()
        self.update_button()
        mspplots = self.selected_reader.plotter.from_MSPInitializer(
            self.mspinit)
        mspplots.create_results()
        self.running_text.set("Please press Start")

    def report_button(self):
        self.running_text.set("Creating Report")
        self.update()
        self.update_button()
        mspplots = self.selected_reader.plotter.from_MSPInitializer(
            self.mspinit)
        mspplots.create_report()
        self.running_text.set("Please press Start")

    def plot_intermediate_row(self, text: str):
        row = self.heading_length + self.number_of_plots
        int_var = tk.IntVar(value=1)
        self.normalizer_text = tk.StringVar(value="None")
        self.normalizer_button = tk.OptionMenu(self, self.normalizer_text,
                                               *self.normalize_options)
        self.normalizer_button.grid(row=row, column=1)

        self.number_of_plots += 1

    def plot_row(self, text: str, plot_name: str):
        row = self.heading_length + self.number_of_plots
        int_var = tk.IntVar(value=1)
        tk.Checkbutton(self, text=text, variable=int_var).grid(row=row,
                                                               column=0)

        intensity_list = MultiSelectOptionMenu(self, self.intensity_options,
                                               "Select Intensities")
        intensity_list.grid(row=row, column=1)

        level_list = MultiSelectOptionMenu(self, button_text="Select Levels")
        level_list.grid(row=row, column=2)

        self.number_of_plots += 1
        self.plot_settings.update({
            f"{plot_name}_int": int_var,
            f"{plot_name}_var": intensity_list,
            f"{plot_name}_levels": level_list
        })