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"""Model class template |
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This module provides a template for users to implement custom models. |
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You can specify '--model template' to use this model. |
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The class name should be consistent with both the filename and its model option. |
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The filename should be <model>_dataset.py |
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The class name should be <Model>Dataset.py |
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It implements a simple image-to-image translation baseline based on regression loss. |
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Given input-output pairs (data_A, data_B), it learns a network netG that can minimize the following L1 loss: |
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min_<netG> ||netG(data_A) - data_B||_1 |
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You need to implement the following functions: |
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<modify_commandline_options>: Add model-specific options and rewrite default values for existing options. |
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<__init__>: Initialize this model class. |
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<set_input>: Unpack input data and perform data pre-processing. |
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<forward>: Run forward pass. This will be called by both <optimize_parameters> and <test>. |
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<optimize_parameters>: Update network weights; it will be called in every training iteration. |
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""" |
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import numpy as np |
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import torch |
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from .base_model import BaseModel |
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from . import networks |
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class TemplateModel(BaseModel): |
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@staticmethod |
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def modify_commandline_options(parser, is_train=True): |
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"""Add new model-specific options and rewrite default values for existing options. |
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Parameters: |
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parser -- the option parser |
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is_train -- if it is training phase or test phase. You can use this flag to add training-specific or test-specific options. |
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Returns: |
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the modified parser. |
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""" |
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parser.set_defaults(dataset_mode='aligned') |
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if is_train: |
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parser.add_argument('--lambda_regression', type=float, default=1.0, help='weight for the regression loss') |
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return parser |
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def __init__(self, opt): |
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"""Initialize this model class. |
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Parameters: |
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opt -- training/test options |
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A few things can be done here. |
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- (required) call the initialization function of BaseModel |
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- define loss function, visualization images, model names, and optimizers |
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""" |
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BaseModel.__init__(self, opt) |
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self.loss_names = ['loss_G'] |
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self.visual_names = ['data_A', 'data_B', 'output'] |
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self.model_names = ['G'] |
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self.netG = networks.define_G(opt.input_nc, opt.output_nc, opt.ngf, opt.netG, gpu_ids=self.gpu_ids) |
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if self.isTrain: |
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self.criterionLoss = torch.nn.L1Loss() |
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self.optimizer = torch.optim.Adam(self.netG.parameters(), lr=opt.lr, betas=(opt.beta1, 0.999)) |
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self.optimizers = [self.optimizer] |
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def set_input(self, input): |
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"""Unpack input data from the dataloader and perform necessary pre-processing steps. |
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Parameters: |
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input: a dictionary that contains the data itself and its metadata information. |
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""" |
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AtoB = self.opt.direction == 'AtoB' |
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self.data_A = input['A' if AtoB else 'B'].to(self.device) |
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self.data_B = input['B' if AtoB else 'A'].to(self.device) |
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self.image_paths = input['A_paths' if AtoB else 'B_paths'] |
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def forward(self): |
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"""Run forward pass. This will be called by both functions <optimize_parameters> and <test>.""" |
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self.output = self.netG(self.data_A) |
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def backward(self): |
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"""Calculate losses, gradients, and update network weights; called in every training iteration""" |
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self.loss_G = self.criterionLoss(self.output, self.data_B) * self.opt.lambda_regression |
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self.loss_G.backward() |
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def optimize_parameters(self): |
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"""Update network weights; it will be called in every training iteration.""" |
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self.forward() |
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self.optimizer.zero_grad() |
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self.backward() |
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self.optimizer.step() |
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