较基础的SVM,后续会加上多分类以及高斯核,供大家参考。
Talk is cheap, show me the code
import tensorflow as tf from sklearn.base import BaseEstimator, ClassifierMixin import numpy as np class TFSVM(BaseEstimator, ClassifierMixin): def __init__(self, C = 1, kernel = 'linear', learning_rate = 0.01, training_epoch = 1000, display_step = 50, batch_size = 50, random_state = 42): #参数列表 self.svmC = C self.kernel = kernel self.learning_rate = learning_rate self.training_epoch = training_epoch self.display_step = display_step self.random_state = random_state self.batch_size = batch_size def reset_seed(self): #重置随机数 tf.set_random_seed(self.random_state) np.random.seed(self.random_state) def random_batch(self, X, y): #调用随机子集,实现mini-batch gradient descent indices = np.random.randint(1, X.shape[0], self.batch_size) X_batch = X[indices] y_batch = y[indices] return X_batch, y_batch def _build_graph(self, X_train, y_train): #创建计算图 self.reset_seed() n_instances, n_inputs = X_train.shape X = tf.placeholder(tf.float32, [None, n_inputs], name = 'X') y = tf.placeholder(tf.float32, [None, 1], name = 'y') with tf.name_scope('trainable_variables'): #决策边界的两个变量 W = tf.Variable(tf.truncated_normal(shape = [n_inputs, 1], stddev = 0.1), name = 'weights') b = tf.Variable(tf.truncated_normal([1]), name = 'bias') with tf.name_scope('training'): #算法核心 y_raw = tf.add(tf.matmul(X, W), b) l2_norm = tf.reduce_sum(tf.square(W)) hinge_loss = tf.reduce_mean(tf.maximum(tf.zeros(self.batch_size, 1), tf.subtract(1., tf.multiply(y_raw, y)))) svm_loss = tf.add(hinge_loss, tf.multiply(self.svmC, l2_norm)) training_op = tf.train.AdamOptimizer(learning_rate = self.learning_rate).minimize(svm_loss) with tf.name_scope('eval'): #正确率和预测 prediction_class = tf.sign(y_raw) correct_prediction = tf.equal(y, prediction_class) accuracy = tf.reduce_mean(tf.cast(correct_prediction, tf.float32)) init = tf.global_variables_initializer() self._X = X; self._y = y self._loss = svm_loss; self._training_op = training_op self._accuracy = accuracy; self.init = init self._prediction_class = prediction_class self._W = W; self._b = b def _get_model_params(self): #获取模型的参数,以便存储 with self._graph.as_default(): gvars = tf.get_collection(tf.GraphKeys.GLOBAL_VARIABLES) return {gvar.op.name: value for gvar, value in zip(gvars, self._session.run(gvars))} def _restore_model_params(self, model_params): #保存模型的参数 gvar_names = list(model_params.keys()) assign_ops = {gvar_name: self._graph.get_operation_by_name(gvar_name + '/Assign') for gvar_name in gvar_names} init_values = {gvar_name: assign_op.inputs[1] for gvar_name, assign_op in assign_ops.items()} feed_dict = {init_values[gvar_name]: model_params[gvar_name] for gvar_name in gvar_names} self._session.run(assign_ops, feed_dict = feed_dict) def fit(self, X, y, X_val = None, y_val = None): #fit函数,注意要输入验证集 n_batches = X.shape[0] // self.batch_size self._graph = tf.Graph() with self._graph.as_default(): self._build_graph(X, y) best_loss = np.infty best_accuracy = 0 best_params = None checks_without_progress = 0 max_checks_without_progress = 20 self._session = tf.Session(graph = self._graph) with self._session.as_default() as sess: self.init.run() for epoch in range(self.training_epoch): for batch_index in range(n_batches): X_batch, y_batch = self.random_batch(X, y) sess.run(self._training_op, feed_dict = {self._X:X_batch, self._y:y_batch}) loss_val, accuracy_val = sess.run([self._loss, self._accuracy], feed_dict = {self._X: X_val, self._y: y_val}) accuracy_train = self._accuracy.eval(feed_dict = {self._X: X_batch, self._y: y_batch}) if loss_val < best_loss: best_loss = loss_val best_params = self._get_model_params() checks_without_progress = 0 else: checks_without_progress += 1 if checks_without_progress > max_checks_without_progress: break if accuracy_val > best_accuracy: best_accuracy = accuracy_val #best_params = self._get_model_params() if epoch % self.display_step == 0: print('Epoch: {}\tValidaiton loss: {:.6f}\tValidation Accuracy: {:.4f}\tTraining Accuracy: {:.4f}' .format(epoch, loss_val, accuracy_val, accuracy_train)) print('Best Accuracy: {:.4f}\tBest Loss: {:.6f}'.format(best_accuracy, best_loss)) if best_params: self._restore_model_params(best_params) self._intercept = best_params['trainable_variables/weights'] self._bias = best_params['trainable_variables/bias'] return self def predict(self, X): with self._session.as_default() as sess: return self._prediction_class.eval(feed_dict = {self._X: X}) def _intercept(self): return self._intercept def _bias(self): return self._bias
实际运行效果如下(以Iris数据集为样本):
画出决策边界来看看:
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持。
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稳了!魔兽国服回归的3条重磅消息!官宣时间再确认!
昨天有一位朋友在大神群里分享,自己亚服账号被封号之后居然弹出了国服的封号信息对话框。
这里面让他访问的是一个国服的战网网址,com.cn和后面的zh都非常明白地表明这就是国服战网。
而他在复制这个网址并且进行登录之后,确实是网易的网址,也就是我们熟悉的停服之后国服发布的暴雪游戏产品运营到期开放退款的说明。这是一件比较奇怪的事情,因为以前都没有出现这样的情况,现在突然提示跳转到国服战网的网址,是不是说明了简体中文客户端已经开始进行更新了呢?
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