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from pathlib import Path | |
import matplotlib as matplotlib | |
import matplotlib.cm as cm | |
import pandas as pd | |
import streamlit as st | |
import tokenizers | |
import torch | |
import torch.nn.functional as F | |
from st_aggrid import AgGrid, GridOptionsBuilder, GridUpdateMode | |
PROJ = Path(__file__).parent | |
tokenizer_hash_funcs = { | |
tokenizers.Tokenizer: lambda _: None, | |
tokenizers.AddedToken: lambda _: None, | |
} | |
# device = torch.device("cuda" if torch.cuda.is_available() else "cpu" if torch.has_mps else "cpu") | |
device = torch.device("cuda" if torch.cuda.is_available() else "cpu") | |
classmap = { | |
"O": "O", | |
"PER": "π", | |
"person": "π", | |
"LOC": "π", | |
"location": "π", | |
"ORG": "π€", | |
"corporation": "π€", | |
"product": "π±", | |
"creative": "π·", | |
"MISC": "π·", | |
} | |
def aggrid_interactive_table(df: pd.DataFrame) -> dict: | |
"""Creates an st-aggrid interactive table based on a dataframe. | |
Args: | |
df (pd.DataFrame]): Source dataframe | |
Returns: | |
dict: The selected row | |
""" | |
options = GridOptionsBuilder.from_dataframe( | |
df, enableRowGroup=True, enableValue=True, enablePivot=True | |
) | |
options.configure_side_bar() | |
# options.configure_default_column(cellRenderer=JsCode('''function(params) {return '<a href="#samples-loss">'+params.value+'</a>'}''')) | |
options.configure_selection("single") | |
selection = AgGrid( | |
df, | |
enable_enterprise_modules=True, | |
gridOptions=options.build(), | |
theme="light", | |
update_mode=GridUpdateMode.NO_UPDATE, | |
allow_unsafe_jscode=True, | |
) | |
return selection | |
def explode_df(df: pd.DataFrame) -> pd.DataFrame: | |
df_tokens = df.apply(pd.Series.explode) | |
if "losses" in df.columns: | |
df_tokens["losses"] = df_tokens["losses"].astype(float) | |
return df_tokens # type: ignore | |
def align_sample(row: pd.Series): | |
"""Use word_ids to align all lists in a sample.""" | |
columns = row.axes[0].to_list() | |
indices = [i for i, id in enumerate(row.word_ids) if id >= 0 and id != row.word_ids[i - 1]] | |
out = {} | |
tokens = [] | |
for i, tok in enumerate(row.tokens): | |
if row.word_ids[i] == -1: | |
continue | |
if row.word_ids[i] != row.word_ids[i - 1]: | |
tokens.append(tok.lstrip("β").lstrip("##").rstrip("@@")) | |
else: | |
tokens[-1] += tok.lstrip("β").lstrip("##").rstrip("@@") | |
out["tokens"] = tokens | |
if "preds" in columns: | |
out["preds"] = [row.preds[i] for i in indices] | |
if "labels" in columns: | |
out["labels"] = [row.labels[i] for i in indices] | |
if "losses" in columns: | |
out["losses"] = [row.losses[i] for i in indices] | |
if "probs" in columns: | |
out["probs"] = [row.probs[i] for i in indices] | |
if "hidden_states" in columns: | |
out["hidden_states"] = [row.hidden_states[i] for i in indices] | |
if "ids" in columns: | |
out["ids"] = row.ids | |
assert len(tokens) == len(out["preds"]), (tokens, row.tokens) | |
return out | |
def tag_text(text: str, tokenizer, model, device: torch.device) -> pd.DataFrame: | |
"""Create an (exploded) DataFrame with the predicted labels and probabilities.""" | |
tokens = tokenizer(text).tokens() | |
tokenized = tokenizer(text, return_tensors="pt") | |
word_ids = [w if w is not None else -1 for w in tokenized.word_ids()] | |
input_ids = tokenized.input_ids.to(device) | |
outputs = model(input_ids, output_hidden_states=True) | |
preds = torch.argmax(outputs.logits, dim=2) | |
preds = [model.config.id2label[p] for p in preds[0].cpu().numpy()] | |
hidden_states = outputs.hidden_states[-1][0].detach().cpu().numpy() | |
# hidden_states = np.mean([hidden_states, outputs.hidden_states[0][0].detach().cpu().numpy()], axis=0) | |
probs = 1 // ( | |
torch.min(F.softmax(outputs.logits, dim=-1), dim=-1).values[0].detach().cpu().numpy() | |
) | |
df = pd.DataFrame( | |
[[tokens, word_ids, preds, probs, hidden_states]], | |
columns="tokens word_ids preds probs hidden_states".split(), | |
) | |
merged_df = pd.DataFrame(df.apply(align_sample, axis=1).tolist()) | |
return explode_df(merged_df).reset_index().drop(columns=["index"]) | |
def get_bg_color(label): | |
return st.session_state[f"color_{label}"] | |
def get_fg_color(hex_color: str) -> str: | |
"""Adapted from https://gomakethings.com/dynamically-changing-the-text-color-based-on-background-color-contrast-with-vanilla-js/""" | |
r = int(hex_color[1:3], 16) | |
g = int(hex_color[3:5], 16) | |
b = int(hex_color[5:7], 16) | |
yiq = ((r * 299) + (g * 587) + (b * 114)) / 1000 | |
return "black" if (yiq >= 128) else "white" | |
def colorize_classes(df: pd.DataFrame) -> pd.DataFrame: | |
"""Colorize the errors in the dataframe.""" | |
def colorize_row(row): | |
return [ | |
"background-color: " | |
+ ("white" if (row["labels"] == "IGN" or (row["preds"] == row["labels"])) else "pink") | |
+ ";" | |
] * len(row) | |
def colorize_col(col): | |
if col.name == "labels" or col.name == "preds": | |
bgs = [] | |
fgs = [] | |
for v in col.values: | |
bgs.append(get_bg_color(v.split("-")[1]) if "-" in v else "#ffffff") | |
fgs.append(get_fg_color(bgs[-1])) | |
return [f"background-color: {bg}; color: {fg};" for bg, fg in zip(bgs, fgs)] | |
return [""] * len(col) | |
df = df.reset_index().drop(columns=["index"]).T | |
return df # .style.apply(colorize_col, axis=0) | |
def htmlify_labeled_example(example: pd.DataFrame) -> str: | |
html = [] | |
for _, row in example.iterrows(): | |
pred = row.preds.split("-")[1] if "-" in row.preds else "O" | |
label = row.labels | |
label_class = row.labels.split("-")[1] if "-" in row.labels else "O" | |
color = get_bg_color(row.preds.split("-")[1]) if "-" in row.preds else "#000000" | |
true_color = get_bg_color(row.labels.split("-")[1]) if "-" in row.labels else "#000000" | |
font_color = get_fg_color(color) if color else "white" | |
true_font_color = get_fg_color(true_color) if true_color else "white" | |
is_correct = row.preds == row.labels | |
loss_html = ( | |
"" | |
if float(row.losses) < 0.01 | |
else f"<span style='background-color: yellow; color: font_color; padding: 0 5px;'>{row.losses:.3f}</span>" | |
) | |
loss_html = "" | |
if row.labels == row.preds == "O": | |
html.append(f"<span>{row.tokens}</span>") | |
elif row.labels == "IGN": | |
assert False | |
else: | |
opacity = "1" if not is_correct else "0.5" | |
correct = ( | |
"" | |
if is_correct | |
else f"<span title='{label}' style='background-color: {true_color}; opacity: 1; color: {true_font_color}; padding: 0 5px; border: 1px solid black; min-width: 30px'>{classmap[label_class]}</span>" | |
) | |
pred_icon = classmap[pred] if pred != "O" and row.preds[:2] != "I-" else "" | |
html.append( | |
f"<span style='border: 1px solid black; color: {color}; padding: 0 5px;' title={row.preds}>{pred_icon + ' '}{row.tokens}</span>{correct}{loss_html}" | |
) | |
return " ".join(html) | |
def htmlify_example(example: pd.DataFrame) -> str: | |
corr_html = " ".join( | |
[ | |
f", {row.tokens}" if row.labels == "B-COMMA" else row.tokens | |
for _, row in example.iterrows() | |
] | |
).strip() | |
return f"<em>{corr_html}</em>" | |
def color_map_color(value: float, cmap_name="Set1", vmin=0, vmax=1) -> str: | |
"""Turn a value into a color using a color map.""" | |
norm = matplotlib.colors.Normalize(vmin=vmin, vmax=vmax) | |
cmap = cm.get_cmap(cmap_name) # PiYG | |
rgba = cmap(norm(abs(value))) | |
color = matplotlib.colors.rgb2hex(rgba[:3]) | |
return color | |