Thesis/pretrain/lit_models/utils.py

import json
import numpy as np

def rank_score(ranks):
	# prepare the dataset
	len_samples = len(ranks)
	hits10 = [0] * len_samples
	hits5 = [0] * len_samples
	hits1 = [0] * len_samples
	mrr = []


	for idx, rank in enumerate(ranks):
		if rank <= 10:
			hits10[idx] = 1.
			if rank <= 5:
				hits5[idx] = 1.
				if rank <= 1:
					hits1[idx] = 1.
		mrr.append(1./rank)
	

	return np.mean(hits10), np.mean(hits5), np.mean(hits1), np.mean(mrr)

def acc(logits, labels):
    preds = np.argmax(logits, axis=-1)
    return (preds == labels).mean()
import torch.nn as nn
import torch
class LabelSmoothSoftmaxCEV1(nn.Module):
    '''
    This is the autograd version, you can also try the LabelSmoothSoftmaxCEV2 that uses derived gradients
    '''

    def __init__(self, lb_smooth=0.1, reduction='mean', ignore_index=-100):
        super(LabelSmoothSoftmaxCEV1, self).__init__()
        self.lb_smooth = lb_smooth
        self.reduction = reduction
        self.lb_ignore = ignore_index
        self.log_softmax = nn.LogSoftmax(dim=1)

    def forward(self, logits, label):
        '''
        args: logits: tensor of shape (N, C, H, W)
        args: label: tensor of shape(N, H, W)
        '''
        # overcome ignored label
        with torch.no_grad():
            num_classes = logits.size(1)
            label = label.clone().detach()
            ignore = label == self.lb_ignore
            n_valid = (ignore == 0).sum()
            label[ignore] = 0
            lb_pos, lb_neg = 1. - self.lb_smooth, self.lb_smooth / num_classes
            label = torch.empty_like(logits).fill_(
                lb_neg).scatter_(1, label.unsqueeze(1), lb_pos).detach()

        logs = self.log_softmax(logits)
        loss = -torch.sum(logs * label, dim=1)
        loss[ignore] = 0
        if self.reduction == 'mean':
            loss = loss.sum() / n_valid
        if self.reduction == 'sum':
            loss = loss.sum()

        return loss
Relphormer baseline 2022-12-26 04:54:46 +00:00			`import json`
			`import numpy as np`

			`def rank_score(ranks):`
			`# prepare the dataset`
			`len_samples = len(ranks)`
			`hits10 = [0] * len_samples`
			`hits5 = [0] * len_samples`
			`hits1 = [0] * len_samples`
			`mrr = []`


			`for idx, rank in enumerate(ranks):`
			`if rank <= 10:`
			`hits10[idx] = 1.`
			`if rank <= 5:`
			`hits5[idx] = 1.`
			`if rank <= 1:`
			`hits1[idx] = 1.`
			`mrr.append(1./rank)`


			`return np.mean(hits10), np.mean(hits5), np.mean(hits1), np.mean(mrr)`

			`def acc(logits, labels):`
			`preds = np.argmax(logits, axis=-1)`
			`return (preds == labels).mean()`
			`import torch.nn as nn`
			`import torch`
			`class LabelSmoothSoftmaxCEV1(nn.Module):`
			`'''`
			`This is the autograd version, you can also try the LabelSmoothSoftmaxCEV2 that uses derived gradients`
			`'''`

			`def __init__(self, lb_smooth=0.1, reduction='mean', ignore_index=-100):`
			`super(LabelSmoothSoftmaxCEV1, self).__init__()`
			`self.lb_smooth = lb_smooth`
			`self.reduction = reduction`
			`self.lb_ignore = ignore_index`
			`self.log_softmax = nn.LogSoftmax(dim=1)`

			`def forward(self, logits, label):`
			`'''`
			`args: logits: tensor of shape (N, C, H, W)`
			`args: label: tensor of shape(N, H, W)`
			`'''`
			`# overcome ignored label`
			`with torch.no_grad():`
			`num_classes = logits.size(1)`
			`label = label.clone().detach()`
			`ignore = label == self.lb_ignore`
			`n_valid = (ignore == 0).sum()`
			`label[ignore] = 0`
			`lb_pos, lb_neg = 1. - self.lb_smooth, self.lb_smooth / num_classes`
			`label = torch.empty_like(logits).fill_(`
			`lb_neg).scatter_(1, label.unsqueeze(1), lb_pos).detach()`

			`logs = self.log_softmax(logits)`
			`loss = -torch.sum(logs * label, dim=1)`
			`loss[ignore] = 0`
			`if self.reduction == 'mean':`
			`loss = loss.sum() / n_valid`
			`if self.reduction == 'sum':`
			`loss = loss.sum()`

			`return loss`