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PyTorch教程——小土堆笔记_土堆pytorch笔记
作者:infabc | 2024-01-31 19:39:50
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土堆pytorch笔记
PyTorch教程——小土堆笔记
PyTorch代码笔记
跟着B站小土堆PyTorch教程写的代码笔记
完整代码:
链接:https://pan.baidu.com/s/1-ZePujIeVjeZeCdq7Xek0Q
提取码:4vse
1_tensorboard
Tensorboard是一个可视化工具,能够可视化神经网络内部的组织、结构、及其训练过程。
from torch.utils.tensorboard import SummaryWriter from PIL import Image import numpy as np #tensorboard --logdir=logs/xxxlogs writer = SummaryWriter("logs") img_path = "dataset/antbee/train/ants/0013035.jpg" img_PIL = Image.open(img_path) img_array = np.array(img_PIL) #img_PIL.show() print(type(img_array)) print(img_array.shape) writer.add_image("ant", img_array, 2, dataformats='HWC') for i in range(100): writer.add_scalar(tag="y=2x", scalar_value=2*i, global_step=i) writer.flush() writer.close()
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2_transform
Transforms是pytorch的图像处理工具包,是torchvision模块下的一个一个类的集合,可以对图像或数据进行格式变换,裁剪,缩放,旋转等。
from torch.utils.tensorboard import SummaryWriter from torchvision import transforms from PIL import Image import cv2 img_path = "dataset/antbee/train/ants/0013035.jpg" img = Image.open(img_path) writer = SummaryWriter("logs") tensor_trans = transforms.ToTensor() tensor_img = tensor_trans(img) #print(tensor_img) writer.add_image("tensor_img", tensor_img) writer.close() #cv_img = cv2.imread(img_path) #print(cv_img)
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3_useful_transform
常用transform
ToTensor:把PIL.Image或ndarray从 (H x W x C)形状转换为 (C x H x W) 的tensor
Normalize:对图像进行标准化
Resize:调整PILImage对象的尺寸,注意不能是用io.imread或者cv2.imread读取的图片,这两种方法得到的是ndarray
Compose:串联多个图片变换的操作
RandomCrop:随机裁剪图片
from PIL import Image from torch.utils.tensorboard import SummaryWriter from torchvision import transforms img = Image.open("dataset/antbee/train/ants/0013035.jpg") print(img) writer = SummaryWriter("logs") #ToTensor tensor_trans = transforms.ToTensor() tensor_img = tensor_trans(img) writer.add_image("tensor_img", tensor_img) #Normalize print(tensor_img[0][0][0]) trans_norm = transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5]) img_norm = trans_norm(tensor_img) print(img_norm[0][0][0]) writer.add_image("Normalize", img_norm) #Resize print(img.size) trans_resize = transforms.Resize((512, 512)) img_resize = trans_resize(img) img_resize = trans_resize(tensor_img) writer.add_image("Resize", img_resize, 0) print(img_resize) #Compose trans_resize_2 = transforms.Resize(512) trans_compose = transforms.Compose([trans_resize_2, tensor_trans]) img_resize_2 = trans_compose(img) writer.add_image("Resize", img_resize_2, 1) #RandomCrop trans_random = transforms.RandomCrop((500, 600)) trans_compose_2 = transforms.Compose([trans_random, tensor_trans]) for i in range(20): img_crop = trans_compose_2(img) writer.add_image("RandomCrop", img_crop, i) writer.close()
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4_data
torchvision中的数据集使用
import torchvision from torch.utils.tensorboard import SummaryWriter dataset_transform = torchvision.transforms.Compose([ torchvision.transforms.ToTensor() ]) train_set = torchvision.datasets.CIFAR10(root="dataset", train=True, transform=dataset_transform, download=False) test_set = torchvision.datasets.CIFAR10(root="dataset", train=False, transform=dataset_transform, download=False) # print(train_set[0]) # print(train_set.classes) # # img, target = train_set[0] # print(img) # print(target) # print(train_set.classes[target]) # img.show() #print(train_set[0]) writer = SummaryWriter("logs/datalogs") for i in range(10): img, target = train_set[i] writer.add_image("data", img, i) writer.close()
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5_dataloader
DataLoader是Pytorch中用来处理模型输入数据的一个工具类。
import torchvision from torch.utils.data import DataLoader from torch.utils.tensorboard import SummaryWriter train_data = torchvision.datasets.CIFAR10("dataset", train=True, transform=torchvision.transforms.ToTensor()) test_data = torchvision.datasets.CIFAR10("dataset", train=False, transform=torchvision.transforms.ToTensor()) trian_loader = DataLoader(dataset=train_data, batch_size=64, shuffle=True, num_workers=0, drop_last=False) test_loader = DataLoader(dataset=test_data, batch_size=64, shuffle=True, num_workers=0, drop_last=False) img, target = train_data[0] print(img.shape) print(target) writer = SummaryWriter("logs/dataloadlogs") for epoh in range(2): step = 0 for data in test_loader: imgs, targets = data #print(imgs.shape) #print(targets) writer.add_images("epoh {}".format(epoh), imgs, step) step = step+1 print(step) writer.close()
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6_module
神经网络的基本骨架——nn.Module的使用
import torch
import torch.nn as nn
class Model(nn.Module):
def __init__(self):
super().__init__()
def forward(self, input):
output = input + 1
return output
model = Model()
x = torch.tensor(1.0)
output = model(x)
print(output)
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7_conv
卷积理解
import torch import torch.nn.functional as F input = torch.tensor([[1, 2, 0, 3, 1], [0, 1, 2, 3, 1], [1, 2, 1, 0, 0], [5, 2, 3, 1, 1], [2, 1, 0, 1, 1]]) kernel = torch.tensor([[1, 2, 1], [0, 1, 0], [2, 1, 0]]) input = torch.reshape(input, (1, 1, 5, 5)) kernel = torch.reshape(kernel, (1, 1, 3, 3)) output = F.conv2d(input, kernel, stride=1) print(output) output2 = F.conv2d(input, kernel, stride=2) print(output2) output3 = F.conv2d(input, kernel, stride=1, padding=1) print(output3)
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8_conv2d
卷积层
import torchvision import torch import torch.nn.functional as F from torch import nn from torch.nn import Conv2d from torch.utils.data import DataLoader from torch.utils.tensorboard import SummaryWriter dataset = torchvision.datasets.CIFAR10("data", train=False, transform=torchvision.transforms.ToTensor(), download=True) dataloader = DataLoader(dataset, batch_size=64) class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.conv1 = Conv2d(in_channels=3, out_channels=6, kernel_size=3, stride=1, padding=0) def forward(self, x): x = self.conv1(x) return x tudui = Tudui() print(tudui) writer = SummaryWriter("logs/convlogs") step = 0 for data in dataloader: imgs, target = data output = tudui(imgs) #print(imgs.shape) #print(output.shape) writer.add_images("input", imgs, step) output = torch.reshape(output, (-1, 3, 30, 30)) print(set, output.shape) writer.add_images("output", output, step) step = step + 1
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9_maxpool
最大池化
import torch from torch import nn from torch.nn import MaxPool2d import torchvision from torch.utils.data import DataLoader from torch.utils.tensorboard import SummaryWriter dataset = torchvision.datasets.CIFAR10("data", train=False, transform=torchvision.transforms.ToTensor(), download=True) dataloader = DataLoader(dataset, batch_size=64) # input = torch.tensor([[1, 2, 0, 3, 1], # [0, 1, 2, 3, 1], # [1, 2, 1, 0, 0], # [5, 2, 3, 1, 1], # [2, 1, 0, 1, 1]], dtype=torch.float32) # # input = torch.reshape(input, (-1, 1, 5, 5)) # print(input.shape) class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.maxpool1 = MaxPool2d(kernel_size=3, ceil_mode=True) def forward(self, input): output = self.maxpool1(input) return output tudui = Tudui() # output = tudui(input) # print(output) writer = SummaryWriter("logs/poollogs") step = 0 for data in dataloader: imgs, target = data writer.add_images("input", imgs, step) output = tudui(imgs) writer.add_images("output", output, step) step = step + 1 writer.close()
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10_nolinear
非线性激活
import torch from torch import nn from torch.nn import ReLU, Sigmoid import torchvision from torch.utils.data import DataLoader from torch.utils.tensorboard import SummaryWriter dataset = torchvision.datasets.CIFAR10("data", train=False, transform=torchvision.transforms.ToTensor(), download=True) dataloader = DataLoader(dataset, batch_size=64) #relu # input = torch.tensor([[1, -0.5], # [-1, 3]]) # # output = torch.reshape(input, (-1, 1, 2, 2)) # print(output.shape) class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.relu1 = ReLU() self.sigmoid1 = Sigmoid() def forward(self, input): output = self.sigmoid1(input) return output tudui = Tudui() # output = tudui(input) # print(output) writer = SummaryWriter("logs/sigmoidlogs") step = 0 for data in dataloader: imgs, target = data writer.add_images("input", imgs, step) output = tudui(imgs) writer.add_images("output", output, step) step = step + 1 writer.close()
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11_linear
线性层
import torch from torch import nn from torch.nn import Linear import torchvision from torch.utils.data import DataLoader dataset = torchvision.datasets.CIFAR10("data", train=False, transform=torchvision.transforms.ToTensor(), download=True) dataloader = DataLoader(dataset, batch_size=64, drop_last=True) class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.linear1 = Linear(196608, 10) def forward(self, input): output = self.linear1(input) return output tudui = Tudui() for data in dataloader: imgs, target = data print(imgs.shape) #output = torch.reshape(imgs, (1, 1, 1, -1)) output = torch.flatten(imgs) print(output.shape) output = tudui(output) print(output.shape)
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12_sequential
搭建小实战和Sequential的使用
import torch from torch import nn from torch.utils.tensorboard import SummaryWriter class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.conv1 = nn.Conv2d(3, 32, 5, padding=2) self.maxpool1 = nn.MaxPool2d(2) self.conv2 = nn.Conv2d(32, 32, 5, padding=2) self.maxpool2 = nn.MaxPool2d(2) self.conv3 = nn.Conv2d(32, 64, 5, padding=2) self.maxpool3 = nn.MaxPool2d(2) self.flatten = nn.Flatten() self.linear1 = nn.Linear(1024, 64) self.linear2 = nn.Linear(64, 10) self.model1 = nn.Sequential( nn.Conv2d(3, 32, 5, padding=2), nn.MaxPool2d(2), nn.Conv2d(32, 32, 5, padding=2), nn.MaxPool2d(2), nn.Conv2d(32, 64, 5, padding=2), nn.MaxPool2d(2), nn.Flatten(), nn.Linear(1024, 64), nn.Linear(64, 10) ) def forward(self, x): # x = self.conv1(x) # x = self.maxpool1(x) # x = self.conv2(x) # x = self.maxpool2(x) # x = self.conv3(x) # x = self.maxpool3(x) # x = self.flatten(x) # x = self.linear1(x) # x = self.linear2(x) x = self.model1(x) return x tudui = Tudui() print(tudui) input = torch.ones((64, 3, 32, 32)) output = tudui(input) print(output.shape) writer = SummaryWriter("logs/seqlogs") writer.add_graph(tudui, input) writer.close()
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13_loss
损失函数理解
import torch from torch import nn outputs = torch.tensor([1, 2, 3], dtype=torch.float32) targets = torch.tensor([1, 2, 5], dtype=torch.float32) outputs = torch.reshape(outputs, (1, 1, 1, 3)) targets = torch.reshape(targets, (1, 1, 1, 3)) loss = nn.L1Loss() result = loss(outputs, targets) loss_mse = nn.MSELoss() result_mse = loss_mse(outputs, targets) print(result) print(result_mse) x = torch.tensor([0.1, 0.2, 0.3]) y = torch.tensor([1]) x = torch.reshape(x, (1, 3)) loss_cross = nn.CrossEntropyLoss() result_cross = loss_cross(x, y) print(result_cross)
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14_lossnetwork
损失函数+神经网络
import torch from torch import nn import torchvision from torch.utils.data import DataLoader dataset = torchvision.datasets.CIFAR10("data", train=False, transform=torchvision.transforms.ToTensor(), download=True) dataloader = DataLoader(dataset, batch_size=1) class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.model1 = nn.Sequential( nn.Conv2d(3, 32, 5, padding=2), nn.MaxPool2d(2), nn.Conv2d(32, 32, 5, padding=2), nn.MaxPool2d(2), nn.Conv2d(32, 64, 5, padding=2), nn.MaxPool2d(2), nn.Flatten(), nn.Linear(1024, 64), nn.Linear(64, 10) ) def forward(self, x): x = self.model1(x) return x loss = nn.CrossEntropyLoss() tudui = Tudui() for data in dataloader: imgs, target = data outputs = tudui(imgs) result_loss = loss(outputs, target) # print(outputs) # print(target) # print(result_loss) result_loss.backward() print("ok")
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15_optimzer
优化器
import torch from torch import nn import torchvision from torch.utils.data import DataLoader dataset = torchvision.datasets.CIFAR10("data", train=False, transform=torchvision.transforms.ToTensor(), download=True) dataloader = DataLoader(dataset, batch_size=1) class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.model1 = nn.Sequential( nn.Conv2d(3, 32, 5, padding=2), nn.MaxPool2d(2), nn.Conv2d(32, 32, 5, padding=2), nn.MaxPool2d(2), nn.Conv2d(32, 64, 5, padding=2), nn.MaxPool2d(2), nn.Flatten(), nn.Linear(1024, 64), nn.Linear(64, 10) ) def forward(self, x): x = self.model1(x) return x loss = nn.CrossEntropyLoss() tudui = Tudui() optim = torch.optim.SGD(tudui.parameters(), lr=0.01) for epoh in range(20): running_loss = 0.0 for data in dataloader: imgs, targets = data outputs = tudui(imgs) result_loss = loss(outputs, targets) optim.zero_grad() result_loss.backward() optim.step() running_loss = running_loss + result_loss print(running_loss)
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16_model
现有网络模型的使用及修改
import torchvision from torch import nn vgg16_flase = torchvision.models.vgg16(progress=False) vgg16_ture = torchvision.models.vgg16(progress=True) print(vgg16_ture) train_data = torchvision.datasets.CIFAR10('data', train=True, transform=torchvision.transforms.ToTensor(), download=True) #添加 vgg16_ture.add_module('add_linear', nn.Linear(1000, 10)) print(vgg16_ture) #修改 vgg16_flase.classifier[6] = nn.Linear(4096, 10) print(vgg16_flase)
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17_modelsave
模型保存
import torch import torchvision from torch import nn vgg16 = torchvision.models.vgg16(progress=False) #1、保存模型+参数 torch.save(vgg16, "model/vgg16_method1.pth") #2、保存参数(字典形式) torch.save(vgg16.state_dict(), "model/vgg16_method2.pth") #陷阱 class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.model1 = nn.Sequential( nn.Linear(64, 10) ) def forward(self, x): x = self.model1(x) return x tudui = Tudui() torch.save(tudui, "model/tudui_method.pth")
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18_modelload
模型加载
import torch import torchvision from torch import nn #1、保存模型+参数 model = torch.load("model/vgg16_method1.pth") #print(model) #2、保存参数(字典形式) vgg16 = torchvision.models.vgg16(progress=False) vgg16.load_state_dict(torch.load("model/vgg16_method2.pth")) #model = torch.load("model/vgg16_method2.pth") #print(model) #陷阱,需要有模型定义 class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.model1 = nn.Sequential( nn.Linear(64, 10) ) def forward(self, x): x = self.model1(x) return x model = torch.load("model/tudui_method.pth") print(model)
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完整项目—model.py
模型定义
import torch from torch import nn #搭建神经网络 class Tudui(nn.Module): def __init__(self): super(Tudui, self).__init__() self.model = nn.Sequential( nn.Conv2d(3, 32, 5, 1, 2), nn.MaxPool2d(2), nn.Conv2d(32, 32, 5, 1, 2), nn.MaxPool2d(2), nn.Conv2d(32, 64, 5, 1, 2), nn.MaxPool2d(2), nn.Flatten(), nn.Linear(1024, 64), nn.Linear(64, 10) ) def forward(self, x): x = self.model(x) return x # if __name__ == '__main__': # tudui = Tudui() # input = torch.ones((64, 3, 32, 32)) # output = tudui(input) # print(output.shape)
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完整项目—train.py
CPU训练
import torch import torchvision from torch import nn from torch.utils.data import DataLoader from torch.utils.tensorboard import SummaryWriter from model import * #准备数据集 train_data = torchvision.datasets.CIFAR10('data', train=True, transform=torchvision.transforms.ToTensor(), download=True) test_data = torchvision.datasets.CIFAR10('data', train=False, transform=torchvision.transforms.ToTensor(), download=True) #数据集长度 train_data_size = len(train_data) test_data_size = len(test_data) print("训练数据集长度:{}".format(train_data_size)) print("测试数据集长度:{}".format(test_data_size)) #加载数据集(Dataloader) train_dataloader = DataLoader(train_data, batch_size=64) test_dataloader = DataLoader(test_data, batch_size=64) #创建网络模型 tudui = Tudui() #损失函数 loss_fn = nn.CrossEntropyLoss() #优化器 #learning_rate = 0.01 learning_rate = 1e-2 optimizer = torch.optim.SGD(tudui.parameters(), lr=learning_rate) #参数 total_train_step = 0 total_test_step = 0 epoh = 10 #添加tensorbooard writer = SummaryWriter("logs/trainlogs") for i in range(epoh): print("-----第{}轮训练-----".format(i+1)) #训练开始 tudui.train()#模型状态 for data in train_dataloader: imgs, targets = data outputs = tudui(imgs) loss = loss_fn(outputs, targets) #优化器调优 optimizer.zero_grad() loss.backward() optimizer.step() total_train_step = total_train_step + 1 if total_train_step % 100 == 0: print("训练次数:{},Loss:{}".format(total_train_step, loss.item())) writer.add_scalar("train_loss", loss.item(), total_train_step) #测试 tudui.eval()#模型状态 total_test_loss = 0 total_accuracy = 0 with torch.no_grad(): for data in test_dataloader: imgs, targets = data outputs = tudui(imgs) loss = loss_fn(outputs, targets) total_test_loss = total_test_loss + loss.item() accuracy = (outputs.argmax(1) == targets).sum() total_accuracy = total_accuracy + accuracy print("测试集loss:{}".format(total_test_loss)) print("测试集正确率: {}".format(total_accuracy / test_data_size)) total_test_step = total_test_step + 1 writer.add_scalar("test_loss", total_test_loss, total_test_step) writer.add_scalar("test_accuracy", total_accuracy / test_data_size, total_test_step) torch.save(tudui, "model/tudui_{}.pth".format(i)) writer.close()
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完整项目—train_gpu1.py
GPU训练,方式1
import torch import torchvision from torch import nn from torch.utils.data import DataLoader from torch.utils.tensorboard import SummaryWriter from model import * #准备数据集 train_data = torchvision.datasets.CIFAR10('data', train=True, transform=torchvision.transforms.ToTensor(), download=True) test_data = torchvision.datasets.CIFAR10('data', train=False, transform=torchvision.transforms.ToTensor(), download=True) #数据集长度 train_data_size = len(train_data) test_data_size = len(test_data) print("训练数据集长度:{}".format(train_data_size)) print("测试数据集长度:{}".format(test_data_size)) #加载数据集(Dataloader) train_dataloader = DataLoader(train_data, batch_size=64) test_dataloader = DataLoader(test_data, batch_size=64) #创建网络模型 tudui = Tudui() if torch.cuda.is_available():#1、网络模型 tudui = tudui.cuda() #损失函数 loss_fn = nn.CrossEntropyLoss() if torch.cuda.is_available():#2、损失函数 loss_fn = loss_fn.cuda() #优化器 #learning_rate = 0.01 learning_rate = 1e-2 optimizer = torch.optim.SGD(tudui.parameters(), lr=learning_rate) #参数 total_train_step = 0 total_test_step = 0 epoh = 10 #添加tensorbooard writer = SummaryWriter("logs/trainlogs") for i in range(epoh): print("-----第{}轮训练-----".format(i+1)) #训练开始 tudui.train()#模型状态 for data in train_dataloader: imgs, targets = data if torch.cuda.is_available():#3、数据 imgs = imgs.cuda() targets = targets.cuda() outputs = tudui(imgs) loss = loss_fn(outputs, targets) #优化器调优 optimizer.zero_grad() loss.backward() optimizer.step() total_train_step = total_train_step + 1 if total_train_step % 100 == 0: print("训练次数:{},Loss:{}".format(total_train_step, loss.item())) writer.add_scalar("train_loss", loss.item(), total_train_step) #测试 tudui.eval()#模型状态 total_test_loss = 0 total_accuracy = 0 with torch.no_grad(): for data in test_dataloader: imgs, targets = data if torch.cuda.is_available():#3、数据 imgs = imgs.cuda() targets = targets.cuda() outputs = tudui(imgs) loss = loss_fn(outputs, targets) total_test_loss = total_test_loss + loss.item() accuracy = (outputs.argmax(1) == targets).sum() total_accuracy = total_accuracy + accuracy print("测试集loss:{}".format(total_test_loss)) print("测试集正确率: {}".format(total_accuracy / test_data_size)) total_test_step = total_test_step + 1 writer.add_scalar("test_loss", total_test_loss, total_test_step) writer.add_scalar("test_accuracy", total_accuracy / test_data_size, total_test_step) torch.save(tudui, "model/tudui_{}.pth".format(i)) writer.close()
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完整项目—train_gpu2.py
GPU训练,方式2
import torch import torchvision from torch import nn from torch.utils.data import DataLoader from torch.utils.tensorboard import SummaryWriter from model import * #定义训练的设备 #device = torch.device("cpu") device = torch.device("cuda:0") #device = torch.device("cuda" if torch.cuda.is_available() else "cpu") #准备数据集 train_data = torchvision.datasets.CIFAR10('data', train=True, transform=torchvision.transforms.ToTensor(), download=True) test_data = torchvision.datasets.CIFAR10('data', train=False, transform=torchvision.transforms.ToTensor(), download=True) #数据集长度 train_data_size = len(train_data) test_data_size = len(test_data) print("训练数据集长度:{}".format(train_data_size)) print("测试数据集长度:{}".format(test_data_size)) #加载数据集(Dataloader) train_dataloader = DataLoader(train_data, batch_size=64) test_dataloader = DataLoader(test_data, batch_size=64) #创建网络模型 tudui = Tudui() tudui = tudui.to(device) #损失函数 loss_fn = nn.CrossEntropyLoss() loss_fn = loss_fn.to(device) #优化器 #learning_rate = 0.01 learning_rate = 1e-2 optimizer = torch.optim.SGD(tudui.parameters(), lr=learning_rate) #参数 total_train_step = 0 total_test_step = 0 epoh = 10 #添加tensorbooard writer = SummaryWriter("logs/trainlogs") for i in range(epoh): print("-----第{}轮训练-----".format(i+1)) #训练开始 tudui.train()#模型状态 for data in train_dataloader: imgs, targets = data imgs = imgs.to(device) targets = targets.to(device) outputs = tudui(imgs) loss = loss_fn(outputs, targets) #优化器调优 optimizer.zero_grad() loss.backward() optimizer.step() total_train_step = total_train_step + 1 if total_train_step % 100 == 0: print("训练次数:{},Loss:{}".format(total_train_step, loss.item())) writer.add_scalar("train_loss", loss.item(), total_train_step) #测试 tudui.eval()#模型状态 total_test_loss = 0 total_accuracy = 0 with torch.no_grad(): for data in test_dataloader: imgs, targets = data imgs = imgs.to(device) targets = targets.to(device) outputs = tudui(imgs) loss = loss_fn(outputs, targets) total_test_loss = total_test_loss + loss.item() accuracy = (outputs.argmax(1) == targets).sum() total_accuracy = total_accuracy + accuracy print("测试集loss:{}".format(total_test_loss)) print("测试集正确率: {}".format(total_accuracy / test_data_size)) total_test_step = total_test_step + 1 writer.add_scalar("test_loss", total_test_loss, total_test_step) writer.add_scalar("test_accuracy", total_accuracy / test_data_size, total_test_step) torch.save(tudui, "model/tudui_{}.pth".format(i)) writer.close()
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完整项目—test.py
测试部分
import torch import torchvision from PIL import Image from model import * img_path = "test_imgs/1.jpg" image = Image.open(img_path) print(image) image = image.convert('RGB') transform = torchvision.transforms.Compose([torchvision.transforms.Resize((32, 32)), torchvision.transforms.ToTensor()]) image = transform(image) print(image.shape) model = torch.load("model/tudui_9.pth", map_location=torch.device('cpu')) print(model) image = torch.reshape(image, (1, 3, 32, 32)) print(image.shape) model.eval() with torch.no_grad(): #image = image.cuda() output = model(image) print(output) print(output.argmax(1)) # 'airplane'=0 # 'automobile'=1 # 'brid'=2 # 'cat'=3 # 'deer'=4 # 'dog'=5 # 'frog'=6 # 'horse'=7 # 'ship'=8 # 'truck'=9
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