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| import copy | |
| import os.path | |
| import gradio as gr | |
| import matplotlib.pyplot as plt | |
| from sklearn import preprocessing | |
| from sklearn.model_selection import train_test_split | |
| import pandas as pd | |
| from analysis.shap_model import shap_calculate | |
| from static.process import * | |
| from analysis.linear_model import * | |
| from visualization.draw_learning_curve_total import draw_learning_curve_total | |
| from static.paint import * | |
| import warnings | |
| warnings.filterwarnings("ignore") | |
| class Container: | |
| def __init__(self, x_train=None, y_train=None, x_test=None, y_test=None, hyper_params_optimize=None): | |
| self.x_train = x_train | |
| self.y_train = y_train | |
| self.x_test = x_test | |
| self.y_test = y_test | |
| self.hyper_params_optimize = hyper_params_optimize | |
| self.info = dict() | |
| self.y_pred = None | |
| self.train_sizes = None | |
| self.train_scores_mean = None | |
| self.train_scores_std = None | |
| self.test_scores_mean = None | |
| self.test_scores_std = None | |
| self.status = None | |
| self.model = None | |
| def set_info(self, info: dict): | |
| self.info = info | |
| def set_y_pred(self, y_pred): | |
| self.y_pred = y_pred | |
| def get_learning_curve_values(self): | |
| return [ | |
| self.train_sizes, | |
| self.train_scores_mean, | |
| self.train_scores_std, | |
| self.test_scores_mean, | |
| self.test_scores_std | |
| ] | |
| def set_learning_curve_values(self, train_sizes, train_scores_mean, train_scores_std, test_scores_mean, test_scores_std): | |
| self.train_sizes = train_sizes | |
| self.train_scores_mean = train_scores_mean | |
| self.train_scores_std = train_scores_std | |
| self.test_scores_mean = test_scores_mean | |
| self.test_scores_std = test_scores_std | |
| def get_status(self): | |
| return self.status | |
| def set_status(self, status: str): | |
| self.status = status | |
| def get_model(self): | |
| return self.model | |
| def set_model(self, model): | |
| self.model = model | |
| class StaticValue: | |
| max_num = 10 | |
| class FilePath: | |
| png_base = "./buffer/{}.png" | |
| excel_base = "./buffer/{}.xlsx" | |
| # [绘图] | |
| display_dataset = "current_excel_data" | |
| learning_curve_train_plot = "learning_curve_train_plot" | |
| learning_curve_validation_plot = "learning_curve_validation_plot" | |
| shap_beeswarm_plot = "shap_beeswarm_plot" | |
| class MN: # ModelName | |
| classification = "classification" | |
| regression = "regression" | |
| linear_regression = "linear_regression" | |
| polynomial_regression = "polynomial_regression" | |
| logistic_regression = "logistic_regression" | |
| # [绘图] | |
| learning_curve_train = "learning_curve_train" | |
| learning_curve_validation = "learning_curve_validation" | |
| shap_beeswarm = "shap_beeswarm" | |
| class LN: # LabelName | |
| choose_dataset_radio = "选择所需数据源 [必选]" | |
| display_total_col_num_text = "总列数" | |
| display_total_row_num_text = "总行数" | |
| display_na_list_text = "存在缺失值的列" | |
| del_all_na_col_button = "删除所有存在缺失值的列 [可选]" | |
| display_duplicate_num_text = "重复的行数" | |
| del_col_checkboxgroup = "选择所需删除的列" | |
| del_col_button = "删除 [可选]" | |
| remain_row_slider = "保留的行数" | |
| remain_row_button = "保留 [可选]" | |
| del_duplicate_button = "删除所有重复行 [可选]" | |
| encode_label_checkboxgroup = "选择所需标签编码的字符型数值列" | |
| display_encode_label_dataframe = "标签编码信息" | |
| encode_label_button = "字符型转数值型 [可选]" | |
| change_data_type_to_float_button = "将所有数据强制转换为浮点型(除第1列以外)[必选]" | |
| standardize_data_checkboxgroup = "选择所需标准化的列" | |
| standardize_data_button = "标准化 [可选]" | |
| select_as_y_radio = "选择因变量 [必选]" | |
| choose_assign_radio = "选择任务类型(同时会根据任务类型将第1列数据强制转换)[必选]" | |
| linear_regression_model_radio = "选择线性回归的模型" | |
| model_optimize_radio = "选择超参数优化方法" | |
| model_train_button = "训练" | |
| select_as_model_radio = "选择所需训练的模型" | |
| title_name_textbox = "标题" | |
| x_label_textbox = "x 轴名称" | |
| y_label_textbox = "y 轴名称" | |
| colors = ["颜色 {}".format(i) for i in range(StaticValue.max_num)] | |
| labels = ["图例 {}".format(i) for i in range(StaticValue.max_num)] | |
| # [绘图] | |
| learning_curve_checkboxgroup = "选择所需绘制学习曲线的模型" | |
| learning_curve_train_button = "绘制训练集学习曲线" | |
| learning_curve_validation_button = "绘制验证集学习曲线" | |
| shap_beeswarm_radio = "选择所需绘制蜂群特征图的模型" | |
| shap_beeswarm_button = "绘制蜂群特征图" | |
| learning_curve_train_plot = "训练集学习曲线" | |
| learning_curve_validation_plot = "验证集学习曲线" | |
| shap_beeswarm_plot = "蜂群特征图" | |
| def get_return_extra(is_visible, extra_gr_dict: dict = None): | |
| if is_visible: | |
| gr_dict = { | |
| draw_file: gr.File(Dataset.after_get_file(), visible=Dataset.check_file()), | |
| } | |
| if extra_gr_dict: | |
| gr_dict.update(extra_gr_dict) | |
| return gr_dict | |
| gr_dict = { | |
| draw_plot: gr.Plot(visible=False), | |
| draw_file: gr.File(visible=False), | |
| } | |
| gr_dict.update(dict(zip(colorpickers, [gr.ColorPicker(visible=False)] * StaticValue.max_num))) | |
| gr_dict.update(dict(zip(color_textboxs, [gr.Textbox(visible=False)] * StaticValue.max_num))) | |
| gr_dict.update(dict(zip(legend_labels_textboxs, [gr.Textbox(visible=False)] * StaticValue.max_num))) | |
| gr_dict.update({title_name_textbox: gr.Textbox(visible=False)}) | |
| gr_dict.update({x_label_textbox: gr.Textbox(visible=False)}) | |
| gr_dict.update({y_label_textbox: gr.Textbox(visible=False)}) | |
| return gr_dict | |
| def get_outputs(): | |
| gr_set = { | |
| choose_custom_dataset_file, | |
| display_dataset_dataframe, | |
| display_total_col_num_text, | |
| display_total_row_num_text, | |
| display_na_list_text, | |
| del_all_na_col_button, | |
| display_duplicate_num_text, | |
| del_duplicate_button, | |
| del_col_checkboxgroup, | |
| del_col_button, | |
| remain_row_slider, | |
| remain_row_button, | |
| encode_label_button, | |
| display_encode_label_dataframe, | |
| encode_label_checkboxgroup, | |
| data_type_dataframe, | |
| change_data_type_to_float_button, | |
| standardize_data_checkboxgroup, | |
| standardize_data_button, | |
| select_as_y_radio, | |
| linear_regression_model_radio, | |
| model_optimize_radio, | |
| model_train_button, | |
| model_train_checkbox, | |
| select_as_model_radio, | |
| choose_assign_radio, | |
| display_dataset, | |
| draw_plot, | |
| draw_file, | |
| title_name_textbox, | |
| x_label_textbox, | |
| y_label_textbox, | |
| # [绘图] | |
| learning_curve_checkboxgroup, | |
| learning_curve_train_button, | |
| learning_curve_validation_button, | |
| shap_beeswarm_radio, | |
| shap_beeswarm_button, | |
| } | |
| gr_set.update(set(colorpickers)) | |
| gr_set.update(set(color_textboxs)) | |
| gr_set.update(set(legend_labels_textboxs)) | |
| return gr_set | |
| def get_return(is_visible, extra_gr_dict: dict = None): | |
| if is_visible: | |
| gr_dict = { | |
| display_dataset_dataframe: gr.Dataframe(add_index_into_df(Dataset.data), type="pandas", visible=True), | |
| display_dataset: gr.File(Dataset.after_get_display_dataset_file(), visible=Dataset.check_display_dataset_file()), | |
| display_total_col_num_text: gr.Textbox(str(Dataset.get_total_col_num()), visible=True, label=LN.display_total_col_num_text), | |
| display_total_row_num_text: gr.Textbox(str(Dataset.get_total_row_num()), visible=True, label=LN.display_total_row_num_text), | |
| display_na_list_text: gr.Textbox(Dataset.get_na_list_str(), visible=True, label=LN.display_na_list_text), | |
| del_all_na_col_button: gr.Button(LN.del_all_na_col_button, visible=True), | |
| display_duplicate_num_text: gr.Textbox(str(Dataset.get_duplicate_num()), visible=True, label=LN.display_duplicate_num_text), | |
| del_duplicate_button: gr.Button(LN.del_duplicate_button, visible=True), | |
| del_col_checkboxgroup: gr.Checkboxgroup(Dataset.get_col_list(), visible=True, label=LN.del_col_checkboxgroup), | |
| del_col_button: gr.Button(LN.del_col_button, visible=True), | |
| remain_row_slider: gr.Slider(0, Dataset.get_max_num(), value=Dataset.get_total_row_num(), step=1, visible=True, label=LN.remain_row_slider), | |
| remain_row_button: gr.Button(LN.remain_row_button, visible=True), | |
| encode_label_button: gr.Button(LN.encode_label_button, visible=True), | |
| encode_label_checkboxgroup: gr.Checkboxgroup(Dataset.get_non_numeric_list(), visible=True, label=LN.encode_label_checkboxgroup), | |
| display_encode_label_dataframe: gr.Dataframe(visible=False), | |
| data_type_dataframe: gr.Dataframe(Dataset.get_data_type(), visible=True), | |
| change_data_type_to_float_button: gr.Button(LN.change_data_type_to_float_button, visible=True), | |
| select_as_y_radio: gr.Radio(Dataset.get_col_list(), visible=True, label=LN.select_as_y_radio), | |
| standardize_data_checkboxgroup: gr.Checkboxgroup(Dataset.get_non_standardized_data(), visible=True, label=LN.standardize_data_checkboxgroup), | |
| standardize_data_button: gr.Button(LN.standardize_data_button, visible=True), | |
| choose_assign_radio: gr.Radio(Dataset.get_assign_list(), visible=True, label=LN.choose_assign_radio), | |
| select_as_model_radio: gr.Radio(Dataset.get_model_list(), visible=Dataset.check_before_train(), label=LN.select_as_model_radio), | |
| model_optimize_radio: gr.Radio(Dataset.get_optimize_list(), visible=Dataset.check_before_train(), label=LN.model_optimize_radio), | |
| linear_regression_model_radio: gr.Radio(Dataset.get_linear_regression_model_list(), visible=Dataset.get_linear_regression_mark(), label=LN.linear_regression_model_radio), | |
| model_train_button: gr.Button(LN.model_train_button, visible=Dataset.check_before_train()), | |
| model_train_checkbox: gr.Checkbox(Dataset.get_model_container_status(), visible=Dataset.check_select_model(), label=Dataset.get_model_label()), | |
| draw_plot: gr.Plot(visible=False), | |
| draw_file: gr.File(visible=False), | |
| title_name_textbox: gr.Textbox(visible=False), | |
| x_label_textbox: gr.Textbox(visible=False), | |
| y_label_textbox: gr.Textbox(visible=False), | |
| # [绘图] | |
| learning_curve_checkboxgroup: gr.Checkboxgroup(Dataset.get_trained_model_list(), visible=Dataset.check_before_train(), label=LN.learning_curve_checkboxgroup), | |
| learning_curve_train_button: gr.Button(LN.learning_curve_train_button, visible=Dataset.check_before_train()), | |
| learning_curve_validation_button: gr.Button(LN.learning_curve_validation_button, visible=Dataset.check_before_train()), | |
| shap_beeswarm_radio: gr.Radio(Dataset.get_trained_model_list(), visible=Dataset.check_before_train(), label=LN.shap_beeswarm_radio), | |
| shap_beeswarm_button: gr.Button(LN.shap_beeswarm_button, visible=Dataset.check_before_train()), | |
| } | |
| gr_dict.update(dict(zip(colorpickers, [gr.ColorPicker(visible=False)] * StaticValue.max_num))) | |
| gr_dict.update(dict(zip(color_textboxs, [gr.Textbox(visible=False)] * StaticValue.max_num))) | |
| gr_dict.update(dict(zip(legend_labels_textboxs, [gr.Textbox(visible=False)] * StaticValue.max_num))) | |
| if extra_gr_dict: | |
| gr_dict.update(extra_gr_dict) | |
| return gr_dict | |
| gr_dict = { | |
| choose_custom_dataset_file: gr.File(None, visible=True), | |
| display_dataset_dataframe: gr.Dataframe(visible=False), | |
| display_dataset: gr.File(visible=False), | |
| display_total_col_num_text: gr.Textbox(visible=False), | |
| display_total_row_num_text: gr.Textbox(visible=False), | |
| display_na_list_text: gr.Textbox(visible=False), | |
| del_all_na_col_button: gr.Button(visible=False), | |
| display_duplicate_num_text: gr.Textbox(visible=False), | |
| del_duplicate_button: gr.Button(visible=False), | |
| del_col_checkboxgroup: gr.Checkboxgroup(visible=False), | |
| del_col_button: gr.Button(visible=False), | |
| remain_row_slider: gr.Slider(visible=False), | |
| encode_label_button: gr.Button(visible=False), | |
| display_encode_label_dataframe: gr.Dataframe(visible=False), | |
| encode_label_checkboxgroup: gr.Checkboxgroup(visible=False), | |
| data_type_dataframe: gr.Dataframe(visible=False), | |
| change_data_type_to_float_button: gr.Button(visible=False), | |
| standardize_data_checkboxgroup: gr.Checkboxgroup(visible=False), | |
| standardize_data_button: gr.Button(visible=False), | |
| select_as_y_radio: gr.Radio(visible=False), | |
| linear_regression_model_radio: gr.Radio(visible=False), | |
| model_optimize_radio: gr.Radio(visible=False), | |
| model_train_button: gr.Button(visible=False), | |
| model_train_checkbox: gr.Checkbox(visible=False), | |
| select_as_model_radio: gr.Radio(visible=False), | |
| choose_assign_radio: gr.Radio(visible=False), | |
| draw_plot: gr.Plot(visible=False), | |
| draw_file: gr.File(visible=False), | |
| title_name_textbox: gr.Textbox(visible=False), | |
| x_label_textbox: gr.Textbox(visible=False), | |
| y_label_textbox: gr.Textbox(visible=False), | |
| # [绘图] | |
| learning_curve_checkboxgroup: gr.Checkboxgroup(visible=False), | |
| learning_curve_train_button: gr.Button(visible=False), | |
| learning_curve_validation_button: gr.Button(visible=False), | |
| shap_beeswarm_radio: gr.Radio(visible=False), | |
| shap_beeswarm_button: gr.Button(visible=False), | |
| } | |
| gr_dict.update(dict(zip(colorpickers, [gr.ColorPicker(visible=False)] * StaticValue.max_num))) | |
| gr_dict.update(dict(zip(color_textboxs, [gr.Textbox(visible=False)] * StaticValue.max_num))) | |
| gr_dict.update(dict(zip(legend_labels_textboxs, [gr.Textbox(visible=False)] * StaticValue.max_num))) | |
| return gr_dict | |
| class Dataset: | |
| file = "" | |
| data = pd.DataFrame() | |
| na_list = [] | |
| non_numeric_list = [] | |
| str2int_mappings = {} | |
| max_num = 0 | |
| data_copy = pd.DataFrame() | |
| assign = "" | |
| cur_model = "" | |
| select_y_mark = False | |
| container_dict = { | |
| MN.linear_regression: Container(), | |
| MN.polynomial_regression: Container(), | |
| MN.logistic_regression: Container(), | |
| } | |
| visualize = "" | |
| def get_dataset_list(cls): | |
| return ["Iris Dataset", "Wine Dataset", "Breast Cancer Dataset", "自定义"] | |
| def get_col_list(cls): | |
| return [x for x in cls.data.columns.values] | |
| def get_na_list_str(cls) -> str: | |
| na_series = cls.data.isna().any(axis=0) | |
| na_list = [] | |
| na_list_str = "" | |
| for i in range(len(na_series)): | |
| cur_value = na_series[i] | |
| cur_index = na_series.index[i] | |
| if cur_value: | |
| na_list_str += cur_index + ", " | |
| na_list.append(cur_index) | |
| na_list_str = na_list_str.rstrip(", ") | |
| cls.na_list = na_list | |
| if not na_list: | |
| return "无" | |
| return na_list_str | |
| def get_total_col_num(cls) -> int: | |
| return len(cls.data.columns) | |
| def get_total_row_num(cls) -> int: | |
| return len(cls.data) | |
| def update(cls, file: str, data: pd.DataFrame): | |
| cls.file = file | |
| cls.data = data | |
| cls.max_num = len(data) | |
| cls.data_copy = data | |
| def clear(cls): | |
| cls.file = "" | |
| cls.data = pd.DataFrame() | |
| def get_display_dataset_file(cls): | |
| file_path = FilePath.excel_base.format(FilePath.display_dataset) | |
| return file_path | |
| def check_display_dataset_file(cls): | |
| return os.path.exists(cls.get_display_dataset_file()) | |
| def after_get_display_dataset_file(cls): | |
| if not cls.data.empty: | |
| cls.data.to_excel(cls.get_display_dataset_file(), index=False) | |
| return cls.get_display_dataset_file() if cls.check_display_dataset_file() else None | |
| def del_col(cls, col_list: list): | |
| for col in col_list: | |
| if col in cls.data.columns.values: | |
| cls.data.drop(col, axis=1, inplace=True) | |
| def get_max_num(cls): | |
| return cls.max_num | |
| def remain_row(cls, num): | |
| cls.data = cls.data_copy.iloc[:num, :] | |
| def del_all_na_col(cls): | |
| for col in cls.na_list: | |
| if col in cls.data.columns.values: | |
| cls.data.drop(col, axis=1, inplace=True) | |
| def get_duplicate_num(cls): | |
| data_copy = copy.deepcopy(cls.data) | |
| return len(cls.data) - len(data_copy.drop_duplicates()) | |
| def del_duplicate(cls): | |
| cls.data = cls.data.drop_duplicates().reset_index().drop("index", axis=1) | |
| def encode_label(cls, col_list: list, extra_mark=False): | |
| data_copy = copy.deepcopy(cls.data) | |
| str2int_mappings = dict(zip(col_list, [{} for _ in range(len(col_list))])) | |
| for col in str2int_mappings.keys(): | |
| keys = np.array(data_copy[col].drop_duplicates()) | |
| values = [x for x in range(len(keys))] | |
| str2int_mappings[col] = dict(zip(keys, values)) | |
| for col, mapping in str2int_mappings.items(): | |
| series = data_copy[col] | |
| for k, v in mapping.items(): | |
| series.replace(k, v, inplace=True) | |
| data_copy[col] = series | |
| for k, v in str2int_mappings.items(): | |
| if np.nan in v.keys(): | |
| v.update({"nan": v.pop(np.nan)}) | |
| str2int_mappings[k] = v | |
| if extra_mark: | |
| return data_copy | |
| else: | |
| cls.data = data_copy | |
| cls.str2int_mappings = str2int_mappings | |
| def get_str2int_mappings_df(cls): | |
| columns_list = ["列名", "字符型", "数值型"] | |
| str2int_mappings_df = pd.DataFrame(columns=columns_list) | |
| for k, v in cls.str2int_mappings.items(): | |
| cur_df = pd.DataFrame(columns=columns_list) | |
| cur_df["列名"] = pd.DataFrame([k] * len(v.keys())) | |
| cur_df["字符型"] = pd.DataFrame([x for x in v.keys()]) | |
| cur_df["数值型"] = pd.DataFrame([x for x in v.values()]) | |
| str2int_mappings_df = pd.concat([str2int_mappings_df, cur_df], axis=0) | |
| blank_df = pd.DataFrame(columns=columns_list) | |
| blank_df.loc[0] = ["", "", ""] | |
| str2int_mappings_df = pd.concat([str2int_mappings_df, blank_df], axis=0) | |
| return str2int_mappings_df.iloc[:-1, :] | |
| def get_non_numeric_list(cls): | |
| data_copy = copy.deepcopy(cls.data) | |
| data_copy = data_copy.astype(str) | |
| non_numeric_list = [] | |
| for col in data_copy.columns.values: | |
| if pd.to_numeric(data_copy[col], errors="coerce").isnull().values.any(): | |
| non_numeric_list.append(col) | |
| cls.non_numeric_list = non_numeric_list | |
| return non_numeric_list | |
| def get_data_type(cls): | |
| columns_list = ["列名", "数据类型"] | |
| data_type_dict = {} | |
| for col in cls.data.columns.values: | |
| data_type_dict[col] = cls.data[col].dtype.name | |
| data_type_df = pd.DataFrame(columns=columns_list) | |
| data_type_df["列名"] = [x for x in data_type_dict.keys()] | |
| data_type_df["数据类型"] = [x for x in data_type_dict.values()] | |
| return data_type_df | |
| def change_data_type_to_float(cls): | |
| data_copy = cls.data | |
| for i, col in enumerate(data_copy.columns.values): | |
| if i != 0: | |
| data_copy[col] = data_copy[col].astype(float) | |
| cls.data = data_copy | |
| def get_non_standardized_data(cls): | |
| not_standardized_data_list = [] | |
| for col in cls.data.columns.values: | |
| if cls.data[col].dtype.name in ["int64", "float64"]: | |
| if not np.array_equal(np.round(preprocessing.scale(cls.data[col]), decimals=2), | |
| np.round(cls.data[col].values.round(2), decimals=2)): | |
| not_standardized_data_list.append(col) | |
| return not_standardized_data_list | |
| def check_before_train(cls): | |
| if cls.assign == "" or not cls.select_y_mark: | |
| return False | |
| for i, col in enumerate(cls.data.columns.values): | |
| if i == 0: | |
| if not (all(isinstance(x, str) for x in cls.data.iloc[:, 0]) or all( | |
| isinstance(x, float) for x in cls.data.iloc[:, 0])): | |
| return False | |
| else: | |
| if cls.data[col].dtype.name != "float64": | |
| return False | |
| return True | |
| def standardize_data(cls, col_list: list): | |
| for col in col_list: | |
| cls.data[col] = preprocessing.scale(cls.data[col]) | |
| def select_as_y(cls, col: str): | |
| cls.data = pd.concat([cls.data[col], cls.data.drop(col, axis=1)], axis=1) | |
| cls.select_y_mark = True | |
| def get_optimize_list(cls): | |
| return ["无", "网格搜索", "贝叶斯优化"] | |
| def get_optimize_name_mapping(cls): | |
| return dict(zip(cls.get_optimize_list(), ["None", "grid_search", "bayes_search"])) | |
| def get_linear_regression_model_list(cls): | |
| return ["线性回归", "Lasso回归", "Ridge回归", "弹性网络回归"] | |
| def get_linear_regression_model_name_mapping(cls): | |
| return dict(zip(cls.get_linear_regression_model_list(), ["LinearRegression", "Lasso", "Ridge", "ElasticNet"])) | |
| def train_model(cls, optimize, linear_regression_model_type=None): | |
| optimize = cls.get_optimize_name_mapping()[optimize] | |
| data_copy = cls.data | |
| if cls.assign == MN.classification: | |
| data_copy = cls.encode_label([cls.data.columns.values[0]], True) | |
| x_train, x_test, y_train, y_test = train_test_split( | |
| data_copy.values[:, 1:], | |
| data_copy.values[:, :1], | |
| random_state=Config.RANDOM_STATE, | |
| train_size=0.8 | |
| ) | |
| container = Container(x_train, y_train, x_test, y_test, optimize) | |
| if cls.cur_model == MN.linear_regression: | |
| container = linear_regression(container, cls.get_linear_regression_model_name_mapping()[linear_regression_model_type]) | |
| elif cls.cur_model == MN.polynomial_regression: | |
| container = polynomial_regression(container) | |
| elif cls.cur_model == MN.logistic_regression: | |
| container = logistic_regression(container) | |
| cls.container_dict[cls.cur_model] = container | |
| def get_model_container_status(cls): | |
| return True if cls.cur_model != "" and cls.container_dict[cls.cur_model].get_status() == "trained" else False | |
| def get_model_label(cls): | |
| return str(cls.get_model_name_mapping()[cls.cur_model]) + "模型是否完成训练" if cls.cur_model != "" else "" | |
| def check_select_model(cls): | |
| return True if cls.cur_model != "" and cls.check_before_train() else False | |
| def get_model_name(cls): | |
| return [x for x in cls.container_dict.keys()] | |
| def get_model_chinese_name(cls): | |
| return ["线性回归", "多项式回归", "逻辑斯谛分类"] | |
| def get_model_name_mapping(cls): | |
| return dict(zip(cls.get_model_name(), cls.get_model_chinese_name())) | |
| def get_model_name_mapping_reverse(cls): | |
| return dict(zip(cls.get_model_chinese_name(), cls.get_model_name())) | |
| def get_trained_model_list(cls): | |
| trained_model_list = [] | |
| for model_name, container in cls.container_dict.items(): | |
| if container.get_status() == "trained": | |
| trained_model_list.append(cls.get_model_name_mapping()[model_name]) | |
| return trained_model_list | |
| def draw_plot(cls, select_model, color_list: list, label_list: list, name: str, x_label: str, y_label: str, is_default: bool): | |
| # [绘图] | |
| if cls.visualize == MN.learning_curve_train: | |
| return cls.draw_learning_curve_train_plot(select_model, color_list, label_list, name, x_label, y_label, is_default) | |
| elif cls.visualize == MN.learning_curve_validation: | |
| return cls.draw_learning_curve_validation_plot(select_model, color_list, label_list, name, x_label, y_label, is_default) | |
| elif cls.visualize == MN.shap_beeswarm: | |
| return cls.draw_shap_beeswarm_plot(select_model, color_list, label_list, name, x_label, y_label, is_default) | |
| def draw_learning_curve_train_plot(cls, model_list, color_list: list, label_list: list, name: str, x_label: str, y_label: str, is_default: bool): | |
| learning_curve_dict = {} | |
| for model_name in model_list: | |
| model_name = cls.get_model_name_mapping_reverse()[model_name] | |
| learning_curve_dict[model_name] = cls.container_dict[model_name].get_learning_curve_values() | |
| color_cur_list = Config.COLORS if is_default else color_list | |
| label_cur_list = [x for x in learning_curve_dict.keys()] if is_default else label_list | |
| x_cur_label = "Train Sizes" if is_default else x_label | |
| y_cur_label = "Accuracy" if is_default else y_label | |
| cur_name = "" if is_default else name | |
| paint_object = PaintObject() | |
| paint_object.set_color_cur_list(color_cur_list) | |
| paint_object.set_label_cur_list(label_cur_list) | |
| paint_object.set_x_cur_label(x_cur_label) | |
| paint_object.set_y_cur_label(y_cur_label) | |
| paint_object.set_name(cur_name) | |
| return draw_learning_curve_total(learning_curve_dict, "train", paint_object) | |
| def draw_learning_curve_validation_plot(cls, model_list, color_list: list, label_list: list, name: str, x_label: str, y_label: str, is_default: bool): | |
| learning_curve_dict = {} | |
| for model_name in model_list: | |
| model_name = cls.get_model_name_mapping_reverse()[model_name] | |
| learning_curve_dict[model_name] = cls.container_dict[model_name].get_learning_curve_values() | |
| color_cur_list = Config.COLORS if is_default else color_list | |
| label_cur_list = [x for x in learning_curve_dict.keys()] if is_default else label_list | |
| x_cur_label = "Train Sizes" if is_default else x_label | |
| y_cur_label = "Accuracy" if is_default else y_label | |
| cur_name = "" if is_default else name | |
| paint_object = PaintObject() | |
| paint_object.set_color_cur_list(color_cur_list) | |
| paint_object.set_label_cur_list(label_cur_list) | |
| paint_object.set_x_cur_label(x_cur_label) | |
| paint_object.set_y_cur_label(y_cur_label) | |
| paint_object.set_name(cur_name) | |
| return draw_learning_curve_total(learning_curve_dict, "validation", paint_object) | |
| def draw_shap_beeswarm_plot(cls, model_name, color_list: list, label_list: list, name: str, x_label: str, y_label: str, is_default: bool): | |
| model_name = cls.get_model_name_mapping_reverse()[model_name] | |
| container = cls.container_dict[model_name] | |
| # color_cur_list = Config.COLORS if is_default else color_list | |
| # label_cur_list = [x for x in learning_curve_dict.keys()] if is_default else label_list | |
| # x_cur_label = "Train Sizes" if is_default else x_label | |
| # y_cur_label = "Accuracy" if is_default else y_label | |
| cur_name = "" if is_default else name | |
| paint_object = PaintObject() | |
| # paint_object.set_color_cur_list(color_cur_list) | |
| # paint_object.set_label_cur_list(label_cur_list) | |
| # paint_object.set_x_cur_label(x_cur_label) | |
| # paint_object.set_y_cur_label(y_cur_label) | |
| paint_object.set_name(cur_name) | |
| return shap_calculate(container.get_model(), container.x_train, cls.data.columns.values, paint_object) | |
| def get_file(cls): | |
| # [绘图] | |
| if cls.visualize == MN.learning_curve_train: | |
| return FilePath.png_base.format(FilePath.learning_curve_train_plot) | |
| elif cls.visualize == MN.learning_curve_validation: | |
| return FilePath.png_base.format(FilePath.learning_curve_validation_plot) | |
| elif cls.visualize == MN.shap_beeswarm: | |
| return FilePath.png_base.format(FilePath.shap_beeswarm_plot) | |
| def check_file(cls): | |
| return os.path.exists(cls.get_file()) | |
| def after_get_file(cls): | |
| return cls.get_file() if cls.check_file() else None | |
| def get_model_list(cls): | |
| model_list = [] | |
| for model_name in cls.container_dict.keys(): | |
| model_list.append(cls.get_model_name_mapping()[model_name]) | |
| return model_list | |
| def select_as_model(cls, model_name: str): | |
| cls.cur_model = cls.get_model_name_mapping_reverse()[model_name] | |
| def get_model_mark(cls): | |
| return True if cls.cur_model != "" else False | |
| def get_linear_regression_mark(cls): | |
| return True if cls.cur_model == MN.linear_regression else False | |
| def get_assign_list(cls): | |
| return ["分类", "回归"] | |
| def get_assign_mapping_reverse(cls): | |
| return dict(zip(cls.get_assign_list(), [MN.classification, MN.regression])) | |
| def choose_assign(cls, assign: str): | |
| cls.assign = cls.get_assign_mapping_reverse()[assign] | |
| data_copy = cls.data | |
| if cls.assign == MN.classification: | |
| data_copy.iloc[:, 0] = data_copy.iloc[:, 0].astype(str) | |
| else: | |
| data_copy.iloc[:, 0] = data_copy.iloc[:, 0].astype(float) | |
| cls.data = data_copy | |
| cls.change_data_type_to_float() | |
| def colorpickers_change(cls, paint_object): | |
| cur_num = paint_object.get_color_cur_num() | |
| true_list = [gr.ColorPicker(paint_object.get_color_cur_list()[i], visible=True, label=LN.colors[i]) for i in range(cur_num)] | |
| return true_list + [gr.ColorPicker(visible=False)] * (StaticValue.max_num - cur_num) | |
| def color_textboxs_change(cls, paint_object): | |
| cur_num = paint_object.get_color_cur_num() | |
| true_list = [gr.Textbox(paint_object.get_color_cur_list()[i], visible=True, show_label=False) for i in range(cur_num)] | |
| return true_list + [gr.Textbox(visible=False)] * (StaticValue.max_num - cur_num) | |
| def labels_change(cls, paint_object): | |
| cur_num = paint_object.get_label_cur_num() | |
| true_list = [gr.Textbox(paint_object.get_label_cur_list()[i], visible=True, label=LN.labels[i]) for i in range(cur_num)] | |
| return true_list + [gr.Textbox(visible=False)] * (StaticValue.max_num - cur_num) | |
| def choose_assign(assign: str): | |
| Dataset.choose_assign(assign) | |
| return get_return(True) | |
| def select_as_model(model_name: str): | |
| Dataset.select_as_model(model_name) | |
| return get_return(True) | |
| # [绘图] | |
| def shap_beeswarm_first_draw_plot(*inputs): | |
| Dataset.visualize = MN.shap_beeswarm | |
| return first_draw_plot(inputs) | |
| def learning_curve_validation_first_draw_plot(*inputs): | |
| Dataset.visualize = MN.learning_curve_validation | |
| return first_draw_plot(inputs) | |
| def learning_curve_train_first_draw_plot(*inputs): | |
| Dataset.visualize = MN.learning_curve_train | |
| return first_draw_plot(inputs) | |
| def first_draw_plot(inputs): | |
| select_model = inputs[0] | |
| x_label = "" | |
| y_label = "" | |
| name = "" | |
| color_list = [] | |
| label_list = [] | |
| cur_plt, paint_object = Dataset.draw_plot(select_model, color_list, label_list, name, x_label, y_label, True) | |
| return first_draw_plot_with_non_first_draw_plot(cur_plt, paint_object) | |
| def out_non_first_draw_plot(*inputs): | |
| return non_first_draw_plot(inputs) | |
| def non_first_draw_plot(inputs): | |
| name = inputs[0] | |
| x_label = inputs[1] | |
| y_label = inputs[2] | |
| color_list = list(inputs[3: StaticValue.max_num+3]) | |
| label_list = list(inputs[StaticValue.max_num+3: 2*StaticValue.max_num+3]) | |
| start_index = 2*StaticValue.max_num+3 | |
| # 绘图 | |
| if Dataset.visualize == MN.learning_curve_train: | |
| select_model = inputs[start_index] | |
| elif Dataset.visualize == MN.learning_curve_validation: | |
| select_model = inputs[start_index] | |
| elif Dataset.visualize == MN.shap_beeswarm: | |
| select_model = inputs[start_index+1] | |
| else: | |
| select_model = inputs[start_index: start_index+1] | |
| cur_plt, paint_object = Dataset.draw_plot(select_model, color_list, label_list, name, x_label, y_label, False) | |
| return first_draw_plot_with_non_first_draw_plot(cur_plt, paint_object) | |
| def first_draw_plot_with_non_first_draw_plot(cur_plt, paint_object): | |
| extra_gr_dict = {} | |
| # [绘图] | |
| if Dataset.visualize == MN.learning_curve_train: | |
| cur_plt.savefig(FilePath.png_base.format(FilePath.learning_curve_train_plot), dpi=300) | |
| extra_gr_dict.update({draw_plot: gr.Plot(cur_plt, visible=True, label=LN.learning_curve_train_plot)}) | |
| elif Dataset.visualize == MN.learning_curve_validation: | |
| cur_plt.savefig(FilePath.png_base.format(FilePath.learning_curve_validation_plot), dpi=300) | |
| extra_gr_dict.update({draw_plot: gr.Plot(cur_plt, visible=True, label=LN.learning_curve_validation_plot)}) | |
| elif Dataset.visualize == MN.shap_beeswarm: | |
| cur_plt.savefig(FilePath.png_base.format(FilePath.shap_beeswarm_plot), dpi=300) | |
| extra_gr_dict.update({draw_plot: gr.Plot(cur_plt, visible=True, label=LN.shap_beeswarm_plot)}) | |
| extra_gr_dict.update(dict(zip(colorpickers, Dataset.colorpickers_change(paint_object)))) | |
| extra_gr_dict.update(dict(zip(color_textboxs, Dataset.color_textboxs_change(paint_object)))) | |
| extra_gr_dict.update(dict(zip(legend_labels_textboxs, Dataset.labels_change(paint_object)))) | |
| extra_gr_dict.update({title_name_textbox: gr.Textbox(paint_object.get_name(), visible=True, label=LN.title_name_textbox)}) | |
| extra_gr_dict.update({x_label_textbox: gr.Textbox(paint_object.get_x_cur_label(), visible=True, label=LN.x_label_textbox)}) | |
| extra_gr_dict.update({y_label_textbox: gr.Textbox(paint_object.get_y_cur_label(), visible=True, label=LN.y_label_textbox)}) | |
| return get_return_extra(True, extra_gr_dict) | |
| def train_model(optimize, linear_regression_model_type): | |
| Dataset.train_model(optimize, linear_regression_model_type) | |
| return get_return(True) | |
| def select_as_y(col: str): | |
| Dataset.select_as_y(col) | |
| return get_return(True) | |
| def standardize_data(col_list: list): | |
| Dataset.standardize_data(col_list) | |
| return get_return(True) | |
| def change_data_type_to_float(): | |
| Dataset.change_data_type_to_float() | |
| return get_return(True) | |
| def encode_label(col_list: list): | |
| Dataset.encode_label(col_list) | |
| return get_return(True, { | |
| display_encode_label_dataframe: gr.Dataframe(Dataset.get_str2int_mappings_df(), type="pandas", visible=True, | |
| label=LN.display_encode_label_dataframe)}) | |
| def del_duplicate(): | |
| Dataset.del_duplicate() | |
| return get_return(True) | |
| def del_all_na_col(): | |
| Dataset.del_all_na_col() | |
| return get_return(True) | |
| def remain_row(num): | |
| Dataset.remain_row(num) | |
| return get_return(True) | |
| def del_col(col_list: list): | |
| Dataset.del_col(col_list) | |
| return get_return(True) | |
| def add_index_into_df(df: pd.DataFrame) -> pd.DataFrame: | |
| if df.empty: | |
| return df | |
| index_df = pd.DataFrame([x for x in range(len(df))], columns=["[*index]"]) | |
| return pd.concat([index_df, df], axis=1) | |
| def choose_dataset(file: str): | |
| if file == "自定义": | |
| Dataset.clear() | |
| return get_return(False) | |
| df = load_data(file) | |
| Dataset.update(file, df) | |
| return get_return(True, {choose_custom_dataset_file: gr.File(visible=False)}) | |
| def choose_custom_dataset(file: str): | |
| df = load_custom_data(file) | |
| Dataset.update(file, df) | |
| return get_return(True, {choose_custom_dataset_file: gr.File(Dataset.file, visible=True)}) | |
| with gr.Blocks() as demo: | |
| ''' | |
| 组件 | |
| ''' | |
| with gr.Tab("机器学习"): | |
| # 选择数据源 | |
| with gr.Accordion("数据源"): | |
| with gr.Group(): | |
| choose_dataset_radio = gr.Radio(Dataset.get_dataset_list(), label=LN.choose_dataset_radio) | |
| choose_custom_dataset_file = gr.File(visible=False) | |
| # 显示数据表信息 | |
| with gr.Accordion("当前数据信息"): | |
| display_dataset_dataframe = gr.Dataframe(visible=False) | |
| display_dataset = gr.File(visible=False) | |
| with gr.Row(): | |
| display_total_col_num_text = gr.Textbox(visible=False) | |
| display_total_row_num_text = gr.Textbox(visible=False) | |
| with gr.Column(): | |
| remain_row_slider = gr.Slider(visible=False) | |
| remain_row_button = gr.Button(visible=False) | |
| with gr.Row(): | |
| with gr.Column(): | |
| with gr.Row(): | |
| display_na_list_text = gr.Textbox(visible=False) | |
| display_duplicate_num_text = gr.Textbox(visible=False) | |
| with gr.Row(): | |
| del_all_na_col_button = gr.Button(visible=False) | |
| del_duplicate_button = gr.Button(visible=False) | |
| # 操作数据表 | |
| with gr.Accordion("数据处理"): | |
| select_as_y_radio = gr.Radio(visible=False) | |
| with gr.Row(): | |
| with gr.Column(): | |
| data_type_dataframe = gr.Dataframe(visible=False) | |
| change_data_type_to_float_button = gr.Button(visible=False) | |
| choose_assign_radio = gr.Radio(visible=False) | |
| with gr.Column(): | |
| del_col_checkboxgroup = gr.Checkboxgroup(visible=False) | |
| del_col_button = gr.Button(visible=False) | |
| encode_label_checkboxgroup = gr.Checkboxgroup(visible=False) | |
| encode_label_button = gr.Button(visible=False) | |
| display_encode_label_dataframe = gr.Dataframe(visible=False) | |
| standardize_data_checkboxgroup = gr.Checkboxgroup(visible=False) | |
| standardize_data_button = gr.Button(visible=False) | |
| # 数据模型 | |
| with gr.Accordion("数据模型"): | |
| select_as_model_radio = gr.Radio(visible=False) | |
| linear_regression_model_radio = gr.Radio(visible=False) | |
| model_optimize_radio = gr.Radio(visible=False) | |
| model_train_button = gr.Button(visible=False) | |
| model_train_checkbox = gr.Checkbox(visible=False) | |
| # 可视化 | |
| with gr.Accordion("数据可视化"): | |
| with gr.Tab("学习曲线图"): | |
| learning_curve_checkboxgroup = gr.Checkboxgroup(visible=False) | |
| with gr.Row(): | |
| learning_curve_train_button = gr.Button(visible=False) | |
| learning_curve_validation_button = gr.Button(visible=False) | |
| with gr.Tab("蜂群特征图"): | |
| shap_beeswarm_radio = gr.Radio(visible=False) | |
| shap_beeswarm_button = gr.Button(visible=False) | |
| legend_labels_textboxs = [] | |
| with gr.Accordion("图例"): | |
| with gr.Row(): | |
| for i in range(StaticValue.max_num): | |
| with gr.Row(): | |
| label = gr.Textbox(visible=False) | |
| legend_labels_textboxs.append(label) | |
| with gr.Accordion("坐标轴"): | |
| with gr.Row(): | |
| title_name_textbox = gr.Textbox(visible=False) | |
| x_label_textbox = gr.Textbox(visible=False) | |
| y_label_textbox = gr.Textbox(visible=False) | |
| colorpickers = [] | |
| color_textboxs = [] | |
| with gr.Accordion("颜色"): | |
| with gr.Row(): | |
| for i in range(StaticValue.max_num): | |
| with gr.Row(): | |
| colorpicker = gr.ColorPicker(visible=False) | |
| colorpickers.append(colorpicker) | |
| color_textbox = gr.Textbox(visible=False) | |
| color_textboxs.append(color_textbox) | |
| draw_plot = gr.Plot(visible=False) | |
| draw_file = gr.File(visible=False) | |
| ''' | |
| 监听事件 | |
| ''' | |
| # 选择数据源 | |
| choose_dataset_radio.change(fn=choose_dataset, inputs=[choose_dataset_radio], outputs=get_outputs()) | |
| choose_custom_dataset_file.upload(fn=choose_custom_dataset, inputs=[choose_custom_dataset_file], outputs=get_outputs()) | |
| # 操作数据表 | |
| # 删除所选列 | |
| del_col_button.click(fn=del_col, inputs=[del_col_checkboxgroup], outputs=get_outputs()) | |
| # 保留行 | |
| remain_row_button.click(fn=remain_row, inputs=[remain_row_slider], outputs=get_outputs()) | |
| # 删除所有存在缺失值的列 | |
| del_all_na_col_button.click(fn=del_all_na_col, outputs=get_outputs()) | |
| # 删除所有重复的行 | |
| del_duplicate_button.click(fn=del_duplicate, outputs=get_outputs()) | |
| # 字符型列转数值型列 | |
| encode_label_button.click(fn=encode_label, inputs=[encode_label_checkboxgroup], outputs=get_outputs()) | |
| # 将所有数据强制转换为浮点型(除第1列之外) | |
| change_data_type_to_float_button.click(fn=change_data_type_to_float, outputs=get_outputs()) | |
| # 标准化数据 | |
| standardize_data_button.click(fn=standardize_data, inputs=[standardize_data_checkboxgroup], outputs=get_outputs()) | |
| # 选择因变量 | |
| select_as_y_radio.change(fn=select_as_y, inputs=[select_as_y_radio], outputs=get_outputs()) | |
| # 选择任务类型(强制转换第1列) | |
| choose_assign_radio.change(fn=choose_assign, inputs=[choose_assign_radio], outputs=get_outputs()) | |
| # 数据模型 | |
| select_as_model_radio.change(fn=select_as_model, inputs=[select_as_model_radio], outputs=get_outputs()) | |
| model_train_button.click(fn=train_model, inputs=[model_optimize_radio, linear_regression_model_radio], outputs=get_outputs()) | |
| # 可视化 | |
| learning_curve_train_button.click(fn=learning_curve_train_first_draw_plot, inputs=[learning_curve_checkboxgroup], outputs=get_outputs()) | |
| learning_curve_validation_button.click(fn=learning_curve_validation_first_draw_plot, inputs=[learning_curve_checkboxgroup], outputs=get_outputs()) | |
| shap_beeswarm_button.click(fn=shap_beeswarm_first_draw_plot, inputs=[shap_beeswarm_radio], outputs=get_outputs()) | |
| title_name_textbox.blur(fn=out_non_first_draw_plot, inputs=[title_name_textbox] + [x_label_textbox] + [y_label_textbox] + colorpickers + legend_labels_textboxs | |
| + [learning_curve_checkboxgroup] + [shap_beeswarm_radio], outputs=get_outputs()) | |
| x_label_textbox.blur(fn=out_non_first_draw_plot, inputs=[title_name_textbox] + [x_label_textbox] + [y_label_textbox] + colorpickers + legend_labels_textboxs | |
| + [learning_curve_checkboxgroup] + [shap_beeswarm_radio], outputs=get_outputs()) | |
| y_label_textbox.blur(fn=out_non_first_draw_plot, inputs=[title_name_textbox] + [x_label_textbox] + [y_label_textbox] + colorpickers + legend_labels_textboxs | |
| + [learning_curve_checkboxgroup] + [shap_beeswarm_radio], outputs=get_outputs()) | |
| for i in range(StaticValue.max_num): | |
| colorpickers[i].blur(fn=out_non_first_draw_plot, inputs=[title_name_textbox] + [x_label_textbox] + [y_label_textbox] + colorpickers + legend_labels_textboxs | |
| + [learning_curve_checkboxgroup] + [shap_beeswarm_radio], outputs=get_outputs()) | |
| color_textboxs[i].blur(fn=out_non_first_draw_plot, inputs=[title_name_textbox] + [x_label_textbox] + [y_label_textbox] + color_textboxs + legend_labels_textboxs | |
| + [learning_curve_checkboxgroup] + [shap_beeswarm_radio], outputs=get_outputs()) | |
| legend_labels_textboxs[i].blur(fn=out_non_first_draw_plot, inputs=[title_name_textbox] + [x_label_textbox] + [y_label_textbox] + colorpickers + legend_labels_textboxs | |
| + [learning_curve_checkboxgroup] + [shap_beeswarm_radio], outputs=get_outputs()) | |
| if __name__ == "__main__": | |
| demo.launch() | |