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| import streamlit as st | |
| from PIL import Image | |
| import settings | |
| import captum | |
| import numpy as np | |
| import torch | |
| import torch.nn.functional as F | |
| import torch.backends.cudnn as cudnn | |
| from utils import get_args | |
| from utils import CTCLabelConverter, AttnLabelConverter, Averager, TokenLabelConverter | |
| import string | |
| import time | |
| import sys | |
| from dataset import hierarchical_dataset, AlignCollate | |
| import validators | |
| from model import Model, STRScore | |
| from PIL import Image | |
| from lime.wrappers.scikit_image import SegmentationAlgorithm | |
| from captum._utils.models.linear_model import SkLearnLinearModel, SkLearnRidge | |
| import random | |
| import os | |
| from skimage.color import gray2rgb | |
| import pickle | |
| from train_shap_corr import getPredAndConf | |
| import re | |
| from captum_test import acquire_average_auc, saveAttrData | |
| import copy | |
| from skimage.color import gray2rgb | |
| from matplotlib import pyplot as plt | |
| from torchvision import transforms | |
| device = torch.device('cpu') | |
| opt = get_args(is_train=False) | |
| """ vocab / character number configuration """ | |
| if opt.sensitive: | |
| opt.character = string.printable[:-6] # same with ASTER setting (use 94 char). | |
| cudnn.benchmark = True | |
| cudnn.deterministic = True | |
| # opt.num_gpu = torch.cuda.device_count() | |
| # combineBestDataXAI(opt) | |
| # acquire_average_auc(opt) | |
| # acquireSingleCharAttrAve(opt) | |
| modelName = "parseq" | |
| opt.modelName = modelName | |
| # opt.eval_data = "datasets/data_lmdb_release/evaluation" | |
| if modelName=="vitstr": | |
| opt.benchmark_all_eval = True | |
| opt.Transformation = "None" | |
| opt.FeatureExtraction = "None" | |
| opt.SequenceModeling = "None" | |
| opt.Prediction = "None" | |
| opt.Transformer = True | |
| opt.sensitive = True | |
| opt.imgH = 224 | |
| opt.imgW = 224 | |
| opt.data_filtering_off = True | |
| opt.TransformerModel= "vitstr_base_patch16_224" | |
| opt.saved_model = "pretrained/vitstr_base_patch16_224_aug.pth" | |
| opt.batch_size = 1 | |
| opt.workers = 0 | |
| opt.scorer = "mean" | |
| opt.blackbg = True | |
| elif modelName=="parseq": | |
| opt.benchmark_all_eval = True | |
| opt.Transformation = "None" | |
| opt.FeatureExtraction = "None" | |
| opt.SequenceModeling = "None" | |
| opt.Prediction = "None" | |
| opt.Transformer = True | |
| opt.sensitive = True | |
| opt.imgH = 32 | |
| opt.imgW = 128 | |
| opt.data_filtering_off = True | |
| opt.batch_size = 1 | |
| opt.workers = 0 | |
| opt.scorer = "mean" | |
| opt.blackbg = True | |
| # x = st.slider('Select a value') | |
| # st.write(x, 'squared is', x * x) | |
| image = Image.open('demo_image/demo_ballys.jpg') #Brand logo image (optional) | |
| #Create two columns with different width | |
| col1, col2 = st.columns( [0.8, 0.2]) | |
| with col1: # To display the header text using css style | |
| st.markdown(""" <style> .font { | |
| font-size:35px ; font-family: 'Cooper Black'; color: #FF9633;} | |
| </style> """, unsafe_allow_html=True) | |
| st.markdown('<p class="font">Upload your photo here...</p>', unsafe_allow_html=True) | |
| with col2: # To display brand logo | |
| st.image(image, width=150) | |
| uploaded_file = st.file_uploader("Choose a file", type=["png", "jpg"]) | |
| if uploaded_file is not None: | |
| # To read file as bytes: | |
| bytes_data = uploaded_file.getvalue() | |
| pilImg = Image.open(uploaded_file) | |
| orig_img_tensors = transforms.ToTensor()(pilImg).unsqueeze(0) | |
| img1 = orig_img_tensors.to(device) | |
| # image_tensors = ((torch.clone(orig_img_tensors) + 1.0) / 2.0) * 255.0 | |
| image_tensors = torch.mean(orig_img_tensors, dim=1).unsqueeze(0).unsqueeze(0) | |
| imgDataDict = {} | |
| img_numpy = image_tensors.cpu().detach().numpy()[0] ### Need to set batch size to 1 only | |
| if img_numpy.shape[0] == 1: | |
| img_numpy = gray2rgb(img_numpy[0]) | |
| # print("img_numpy shape: ", img_numpy.shape) # (1, 32, 128, 3) | |
| segmOutput = segmentation_fn(img_numpy[0]) | |
| results_dict = {} | |
| aveAttr = [] | |
| aveAttr_charContrib = [] | |
| target = converter.encode([labels]) | |
| # labels: RONALDO | |
| segmDataNP = segmOutput | |
| img1.requires_grad = True | |
| bgImg = torch.zeros(img1.shape).to(device) | |
| # preds = model(img1, seqlen=converter.batch_max_length) | |
| input = img1 | |
| origImgNP = torch.clone(orig_img_tensors).detach().cpu().numpy()[0][0] # (1, 1, 224, 224) | |
| origImgNP = gray2rgb(origImgNP) | |
| charOffset = 0 | |
| img1 = transforms.Normalize(0.5, 0.5)(img1) # Between -1 to 1 | |
| target = converter.encode([labels]) | |
| ### Local explanations only | |
| collectedAttributions = [] | |
| for charIdx in range(0, len(labels)): | |
| scoring_singlechar.setSingleCharOutput(charIdx + charOffset) | |
| gtClassNum = target[0][charIdx + charOffset] | |
| gs = GradientShap(super_pixel_model_singlechar) | |
| baseline_dist = torch.zeros((1, 3, opt.imgH, opt.imgW)) | |
| baseline_dist = baseline_dist.to(device) | |
| attributions = gs.attribute(input, baselines=baseline_dist, target=0) | |
| collectedAttributions.append(attributions) | |
| aveAttributions = torch.mean(torch.cat(collectedAttributions,dim=0), dim=0).unsqueeze(0) | |
| # if not torch.isnan(aveAttributions).any(): | |
| # rankedAttr = rankedAttributionsBySegm(aveAttributions, segmDataNP) | |
| # rankedAttr = rankedAttr.detach().cpu().numpy()[0][0] | |
| # rankedAttr = gray2rgb(rankedAttr) | |
| # mplotfig, _ = visualize_image_attr(rankedAttr, origImgNP, method='blended_heat_map', cmap='RdYlGn') | |
| # mplotfig.savefig(outputDir + '{}_shapley_l.png'.format(nameNoExt)) | |
| # mplotfig.clear() | |
| # plt.close(mplotfig) | |
| ### Local Sampling | |
| gs = GradientShap(super_pixel_model) | |
| baseline_dist = torch.zeros((1, 3, opt.imgH, opt.imgW)) | |
| baseline_dist = baseline_dist.to(device) | |
| attributions = gs.attribute(input, baselines=baseline_dist, target=0) | |
| # if not torch.isnan(attributions).any(): | |
| # collectedAttributions.append(attributions) | |
| # rankedAttr = rankedAttributionsBySegm(attributions, segmDataNP) | |
| # rankedAttr = rankedAttr.detach().cpu().numpy()[0][0] | |
| # rankedAttr = gray2rgb(rankedAttr) | |
| # mplotfig, _ = visualize_image_attr(rankedAttr, origImgNP, method='blended_heat_map', cmap='RdYlGn') | |
| # mplotfig.savefig(outputDir + '{}_shapley.png'.format(nameNoExt)) | |
| # mplotfig.clear() | |
| # plt.close(mplotfig) | |
| ### Global + Local context | |
| aveAttributions = torch.mean(torch.cat(collectedAttributions,dim=0), dim=0).unsqueeze(0) | |
| if not torch.isnan(aveAttributions).any(): | |
| rankedAttr = rankedAttributionsBySegm(aveAttributions, segmDataNP) | |
| rankedAttr = rankedAttr.detach().cpu().numpy()[0][0] | |
| rankedAttr = gray2rgb(rankedAttr) | |
| mplotfig, _ = visualize_image_attr(rankedAttr, origImgNP, method='blended_heat_map', cmap='RdYlGn') | |
| fig = mplotfig.figure(figsize=(8,8)) | |
| st.pyplot(fig) | |
| # mplotfig.savefig(outputDir + '{}_shapley_gl.png'.format(nameNoExt)) | |
| # mplotfig.clear() | |
| # plt.close(mplotfig) | |