sliced whole validation

Hyunji
Commit aa2fd90db79ba08b34622206fc020856fe8f6a7f aa2fd90d 1 parent 9d3112d6
Showing 1 changed file with 139 additions and 0 deletions
3DCNN_VGGNet_2DResNet/sliced_whole_validation.py
--- a/3DCNN_VGGNet_2DResNet/sliced_whole_validation.py 0 → 100644
View file @aa2fd90
+++ b/3DCNN_VGGNet_2DResNet/sliced_whole_validation.py 0 → 100644
View file @aa2fd90
+ import json
+ 
+ from dataset import PAC2019, PAC20192D
+ from model import Model, VGGBasedModel, VGGBasedModel2D
+ from model_resnet import resnet18
+ 
+ import torch
+ from torch.autograd import Variable
+ import torch.nn as nn
+ from torch.utils.data import DataLoader
+ import numpy as np
+ 
+ import medicaltorch.transforms as mt_transforms
+ import torchvision as tv
+ import torchvision.utils as vutils
+ 
+ import matplotlib.pyplot as plt
+ from collections import defaultdict, Counter
+ 
+ from tqdm import *
+ 
+ 
+ with open("config.json") as fid:
+     ctx = json.load(fid)
+ 
+ val_set = PAC2019(ctx, set='val', split=0.8)
+ 
+ val_loader = DataLoader(val_set, shuffle=False, drop_last=False,
+                              num_workers=8, batch_size=1)
+ 
+ model = resnet18()
+ model.cuda()
+ # model.load_state_dict(torch.load('models/lr0.0006_rampup20.pt'))
+ model.load_state_dict(torch.load('models/2d.pt'))
+ model.eval()
+ 
+ portion = 0.8
+ errors = []
+ error_per_age = defaultdict(list)
+ error_per_age_per_slice = defaultdict(lambda: defaultdict(list))
+ errors_val = []
+ for i, data in enumerate(tqdm(val_loader)):
+     gm_image = Variable(data["gm"]).float().cuda()
+     wm_image = Variable(data["wm"]).float().cuda()
+     # print(input_image.shape)
+ 
+ 
+     slices = []
+     start = int((1.-portion)*gm_image.shape[1])
+     end = int(portion*gm_image.shape[1])
+     gm_image = gm_image[0,start:end,:,:]
+     wm_image = wm_image[0,start:end,:,:]
+     # print(gm_image.shape)
+     for slice_idx in range(gm_image.shape[0]):
+         slice_gm = gm_image[slice_idx,:,:]
+         slice_gm = slice_gm.unsqueeze(0)
+         slice_wm = wm_image[slice_idx,:,:]
+         slice_wm = slice_wm.unsqueeze(0)
+         slice = torch.cat([slice_gm, slice_wm], dim=0)
+         # print(slice.shape)
+         slices.append({
+             'image': slice,
+             'label': data['label']
+         })
+         # print('Slice: ', slice.shape)
+ 
+     error = []
+     for idx, slice in enumerate(slices):
+         age = int(slice['label'].item())
+         slice['image'] = slice['image'].unsqueeze(0)
+         # print(slice['image'].shape)
+         output = model(slice['image'])
+         # print(output[0], slice['label'])
+         error.append(np.abs(output[0].item() - slice['label'].item()))
+         error_per_age_per_slice[idx][age].append(np.abs(output[0].item() - slice['label'].item()))
+     # print(error)
+     errors.append(error)
+     errors_val.append(np.mean(error))
+     error_per_age[int(slice['label'].item())].append(np.mean(error))
+ 
+ print('Validation error: ', np.mean(errors_val))
+ min_slice = 0
+ # print(error_per_age_per_slice.keys())
+ max_slice = len(error_per_age_per_slice.keys())
+ min_age = min(error_per_age_per_slice[0].keys())
+ max_age = max(error_per_age_per_slice[0].keys())+1
+ # print('Min/max: ', min_age, max_age)
+ heatmap = np.zeros((max_age, max_slice))
+ # print(error_per_age_per_slice.keys())
+ # print(error_per_age_per_slice[0].keys())
+ # print(list(sorted(error_per_age_per_slice[0].keys())))
+ for slice_idx in sorted(error_per_age_per_slice.keys()):
+     # print('here')
+     for age in range(0, 75):
+         # print('age: here')
+         # print('Slice/Age: %d/%d --> ' % (slice_idx, age), error_per_age_per_slice[slice_idx][age])
+         mean = np.mean(error_per_age_per_slice[slice_idx][age])
+         if not np.isnan(mean):
+             heatmap[age,slice_idx] = mean
+         # print('mean: ', np.mean(error_per_age_per_slice[slice_idx][age]))
+ plt.imshow(heatmap, cmap='viridis')
+ plt.colorbar()
+ plt.ylabel('Age')
+ plt.xlabel('Slice')
+ # plt.grid()
+ plt.show()
+ # raise
+ # print(error_per_age)
+ sorted_values = []
+ keys = []
+ for k in sorted(error_per_age.keys()):
+     sorted_values.append(error_per_age[k])
+     keys.append(k)
+ 
+ fig = plt.figure(1, figsize=(9, 6))
+ ax = fig.add_subplot(111)
+ 
+ ax.boxplot(sorted_values)
+ ax.set_xticklabels(keys)
+ plt.show()
+ 
+ 
+ errors = np.array(errors)
+ # print(errors.shape)
+ mean_errors = np.mean(errors, axis=0)
+ # plt.plot(mean_errors)
+ fig, (ax,ax2) = plt.subplots(nrows=2, sharex=True)
+ x = np.linspace(0, errors.shape[1])
+ extent = [x[0]-(x[1]-x[0])/2., x[-1]+(x[1]-x[0])/2.,0,1]
+ ax.imshow(mean_errors[np.newaxis,:], cmap="viridis", aspect="auto", extent=extent)
+ # print(mean_errors.shape)
+ # print(x.shape)
+ ax2.plot(np.arange(mean_errors.shape[0]),mean_errors)
+ 
+ plt.ylabel('Mean Absolute Error (MAE)')
+ plt.xlabel('Slice index')
+ 
+ plt.show()
+ # print(mean_errors)