latent-space-theories / pages /2_Colours_comparison.py
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import streamlit as st
import streamlit.components.v1 as components
import dnnlib
import legacy
import pickle
import pandas as pd
import numpy as np
from pyvis.network import Network
import random
from sklearn.metrics.pairwise import cosine_similarity
from matplotlib.backends.backend_agg import RendererAgg
from backend.disentangle_concepts import *
_lock = RendererAgg.lock
HIGHTLIGHT_COLOR = '#e7bcc5'
st.set_page_config(layout='wide')
st.title('Comparison among concept vectors')
st.write('> **How do the concept vectors relate to each other?**')
st.write('> **What is their join impact on the image?**')
st.write("""Description to write""")
annotations_file = './data/annotated_files/seeds0000-50000.pkl'
with open(annotations_file, 'rb') as f:
annotations = pickle.load(f)
ann_df = pd.read_csv('./data/annotated_files/sim_seeds0000-50000.csv')
concepts = './data/concepts.txt'
with open(concepts) as f:
labels = [line.strip() for line in f.readlines()]
if 'image_id' not in st.session_state:
st.session_state.image_id = 0
if 'concept_ids' not in st.session_state:
st.session_state.concept_ids = ['Abstract', 'Representational']
if 'space_id' not in st.session_state:
st.session_state.space_id = 'Z'
# def on_change_random_input():
# st.session_state.image_id = st.session_state.image_id
# ----------------------------- INPUT ----------------------------------
st.header('Input')
input_col_1, input_col_2, input_col_3 = st.columns(3)
# --------------------------- INPUT column 1 ---------------------------
with input_col_1:
with st.form('text_form'):
# image_id = st.number_input('Image ID: ', format='%d', step=1)
st.write('**Choose a series of concepts to compare**')
# chosen_text_id_input = st.empty()
# concept_id = chosen_text_id_input.text_input('Concept:', value=st.session_state.concept_id)
concept_ids = st.multiselect('Concept:', tuple(labels))
st.write('**Choose a latent space to disentangle**')
# chosen_text_id_input = st.empty()
# concept_id = chosen_text_id_input.text_input('Concept:', value=st.session_state.concept_id)
space_id = st.selectbox('Space:', tuple(['Z', 'W']))
choose_text_button = st.form_submit_button('Choose the defined concept and space to disentangle')
if choose_text_button:
st.session_state.concept_ids = list(concept_ids)
space_id = str(space_id)
st.session_state.space_id = space_id
# st.write(image_id, st.session_state.image_id)
# ---------------------------- SET UP OUTPUT ------------------------------
epsilon_container = st.empty()
st.header('Output')
st.subheader('Concept vector')
# perform attack container
# header_col_1, header_col_2, header_col_3, header_col_4, header_col_5 = st.columns([1,1,1,1,1])
# output_col_1, output_col_2, output_col_3, output_col_4, output_col_5 = st.columns([1,1,1,1,1])
header_col_1, header_col_2 = st.columns([1,1])
output_col_1, output_col_2 = st.columns([1,1])
st.subheader('Derivations along the concept vector')
# prediction error container
error_container = st.empty()
smoothgrad_header_container = st.empty()
# smoothgrad container
smooth_head_1, smooth_head_2, smooth_head_3, smooth_head_4, smooth_head_5 = st.columns([1,1,1,1,1])
smoothgrad_col_1, smoothgrad_col_2, smoothgrad_col_3, smoothgrad_col_4, smoothgrad_col_5 = st.columns([1,1,1,1,1])
# ---------------------------- DISPLAY COL 1 ROW 1 ------------------------------
with output_col_1:
vectors, nodes_in_common, performances = get_concepts_vectors(concept_ids, annotations, ann_df, latent_space=space_id)
header_col_1.write(f'Concepts {", ".join(concept_ids)} - Latent space {space_id} - Relevant nodes in common: {nodes_in_common} - Performance of the concept vectors: {performances}')# - Nodes {",".join(list(imp_nodes))}')
edges = []
for i in range(len(concept_ids)):
for j in range(len(concept_ids)):
if i != j:
print(f'Similarity between {concept_ids[i]} and {concept_ids[j]}')
similarity = cosine_similarity(vectors[i,:].reshape(1, -1), vectors[j,:].reshape(1, -1))
print(np.round(similarity[0][0], 3))
edges.append((concept_ids[i], concept_ids[j], np.round(similarity[0][0], 3)))
net = Network(height="750px", width="100%",)
for e in edges:
src = e[0]
dst = e[1]
w = e[2]
net.add_node(src, src, title=src)
net.add_node(dst, dst, title=dst)
net.add_edge(src, dst, value=w, title=src + ' to ' + dst + ' similarity ' +str(w))
# Generate network with specific layout settings
net.repulsion(
node_distance=420,
central_gravity=0.33,
spring_length=110,
spring_strength=0.10,
damping=0.95
)
# Save and read graph as HTML file (on Streamlit Sharing)
try:
path = '/tmp'
net.save_graph(f'{path}/pyvis_graph.html')
HtmlFile = open(f'{path}/pyvis_graph.html', 'r', encoding='utf-8')
# Save and read graph as HTML file (locally)
except:
path = '/html_files'
net.save_graph(f'{path}/pyvis_graph.html')
HtmlFile = open(f'{path}/pyvis_graph.html', 'r', encoding='utf-8')
# Load HTML file in HTML component for display on Streamlit page
components.html(HtmlFile.read(), height=435)
with output_col_2:
with open('data/CLIP_vecs.pkl', 'rb') as f:
vectors_CLIP = pickle.load(f)
# st.write(f'Class ID {input_id} - {input_label}: {pred_prob*100:.3f}% confidence')
#st.write('Concept vector', separation_vector)
header_col_2.write(f'Concepts {", ".join(concept_ids)} - Latent space CLIP')# - Nodes {",".join(list(imp_nodes))}')
edges_clip = []
for c1 in concept_ids:
for c2 in concept_ids:
if c1 != c2:
print(f'Similarity between {c1} and {c2}')
similarity = cosine_similarity(vectors_CLIP[c1].reshape(1, -1), vectors_CLIP[c2].reshape(1, -1))
print(np.round(similarity[0][0], 3))
edges_clip.append((c1, c2, np.round(float(np.round(similarity[0][0], 3)), 3)))
net_clip = Network(height="750px", width="100%",)
for e in edges_clip:
src = e[0]
dst = e[1]
w = e[2]
net_clip.add_node(src, src, title=src)
net_clip.add_node(dst, dst, title=dst)
net_clip.add_edge(src, dst, value=w, title=src + ' to ' + dst + ' similarity ' +str(w))
# Generate network with specific layout settings
net_clip.repulsion(
node_distance=420,
central_gravity=0.33,
spring_length=110,
spring_strength=0.10,
damping=0.95
)
# Save and read graph as HTML file (on Streamlit Sharing)
try:
path = '/tmp'
net_clip.save_graph(f'{path}/pyvis_graph_clip.html')
HtmlFile = open(f'{path}/pyvis_graph_clip.html', 'r', encoding='utf-8')
# Save and read graph as HTML file (locally)
except:
path = '/html_files'
net_clip.save_graph(f'{path}/pyvis_graph_clip.html')
HtmlFile = open(f'{path}/pyvis_graph_clip.html', 'r', encoding='utf-8')
# Load HTML file in HTML component for display on Streamlit page
components.html(HtmlFile.read(), height=435)
# ----------------------------- INPUT column 2 & 3 ----------------------------
with input_col_2:
with st.form('image_form'):
# image_id = st.number_input('Image ID: ', format='%d', step=1)
st.write('**Choose or generate a random image to test the disentanglement**')
chosen_image_id_input = st.empty()
image_id = chosen_image_id_input.number_input('Image ID:', format='%d', step=1, value=st.session_state.image_id)
choose_image_button = st.form_submit_button('Choose the defined image')
random_id = st.form_submit_button('Generate a random image')
if random_id:
image_id = random.randint(0, 50000)
st.session_state.image_id = image_id
chosen_image_id_input.number_input('Image ID:', format='%d', step=1, value=st.session_state.image_id)
if choose_image_button:
image_id = int(image_id)
st.session_state.image_id = int(image_id)
# st.write(image_id, st.session_state.image_id)
with input_col_3:
with st.form('Variate along the disentangled concepts'):
st.write('**Set range of change**')
chosen_epsilon_input = st.empty()
epsilon = chosen_epsilon_input.number_input('Epsilon:', min_value=1, step=1)
epsilon_button = st.form_submit_button('Choose the defined epsilon')
# # ---------------------------- DISPLAY COL 2 ROW 1 ------------------------------
with dnnlib.util.open_url('./data/model_files/network-snapshot-010600.pkl') as f:
model = legacy.load_network_pkl(f)['G_ema'].to('cpu') # type: ignore
if st.session_state.space_id == 'Z':
original_image_vec = annotations['z_vectors'][st.session_state.image_id]
else:
original_image_vec = annotations['w_vectors'][st.session_state.image_id]
img = generate_original_image(original_image_vec, model, latent_space=st.session_state.space_id)
# input_image = original_image_dict['image']
# input_label = original_image_dict['label']
# input_id = original_image_dict['id']
with smoothgrad_col_3:
st.image(img)
smooth_head_3.write(f'Base image')
images, lambdas = generate_joint_effect(model, original_image_vec, vectors, min_epsilon=-(int(epsilon)), max_epsilon=int(epsilon), latent_space=st.session_state.space_id)
with smoothgrad_col_1:
st.image(images[0])
smooth_head_1.write(f'Change of {np.round(lambdas[0], 2)}')
with smoothgrad_col_2:
st.image(images[1])
smooth_head_2.write(f'Change of {np.round(lambdas[1], 2)}')
with smoothgrad_col_4:
st.image(images[3])
smooth_head_4.write(f'Change of {np.round(lambdas[3], 2)}')
with smoothgrad_col_5:
st.image(images[4])
smooth_head_5.write(f'Change of {np.round(lambdas[4], 2)}')