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thyroid-training-scripts
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#!/usr/bin/env python3
"""
Thyroid Ultrasound Nodule Malignancy Classification
Dataset: BTX24/thyroid-cancer-classification-ultrasound-dataset
Binary classification: benign (0) vs malignant (1)
"""

import os
import sys
import numpy as np
from collections import Counter

from datasets import load_dataset
from transformers import (
    AutoImageProcessor,
    AutoModelForImageClassification,
    TrainingArguments,
    Trainer,
    DefaultDataCollator,
    EarlyStoppingCallback,
)
import evaluate
import torch
from torchvision.transforms import (
    Compose, Resize, RandomRotation, RandomHorizontalFlip,
    RandomVerticalFlip, ColorJitter, ToTensor, Normalize
)

# ------------------------------------------------------------------
# Config
# ------------------------------------------------------------------
DATASET_NAME = "BTX24/thyroid-cancer-classification-ultrasound-dataset"
MODEL_NAME = "microsoft/swinv2-base-patch4-window8-256"
OUTPUT_DIR = "./thyroid-swinv2-model"
HUB_MODEL_ID = "Johnyquest7/ML-Inter_thyroid"

NUM_LABELS = 2
ID2LABEL = {0: "benign", 1: "malignant"}
LABEL2ID = {"benign": 0, "malignant": 1}

# ------------------------------------------------------------------
# Metrics
# ------------------------------------------------------------------
accuracy = evaluate.load("accuracy")
f1 = evaluate.load("f1")
precision = evaluate.load("precision")
recall = evaluate.load("recall")
roc_auc = evaluate.load("roc_auc")

def compute_metrics(eval_pred):
    logits, labels = eval_pred
    preds = np.argmax(logits, axis=1)
    probs = torch.softmax(torch.tensor(logits), dim=1)[:, 1].numpy()

    result = {}
    result.update(accuracy.compute(predictions=preds, references=labels))
    result.update(f1.compute(predictions=preds, references=labels, average="binary"))
    result.update(precision.compute(predictions=preds, references=labels, average="binary"))
    result.update(recall.compute(predictions=preds, references=labels, average="binary"))
    try:
        result.update(roc_auc.compute(prediction_scores=probs, references=labels))
    except Exception:
        result["roc_auc"] = 0.0
    return result

# ------------------------------------------------------------------
# Load dataset
# ------------------------------------------------------------------
print("Loading dataset...")
train_ds = load_dataset(DATASET_NAME, split="train")
test_ds = load_dataset(DATASET_NAME, split="test")

# Create validation split from train
train_val = train_ds.train_test_split(test_size=0.15, stratify_by_column="label", seed=42)
train_ds = train_val["train"]
val_ds = train_val["test"]

print(f"Train: {len(train_ds)} | Val: {len(val_ds)} | Test: {len(test_ds)}")
print(f"Train labels: {Counter(train_ds['label'])}")
print(f"Val labels: {Counter(val_ds['label'])}")
print(f"Test labels: {Counter(test_ds['label'])}")

# ------------------------------------------------------------------
# Image processor & transforms
# ------------------------------------------------------------------
print(f"Loading image processor from {MODEL_NAME}...")
image_processor = AutoImageProcessor.from_pretrained(MODEL_NAME)

# Ultrasound images are grayscale (mode 'L') — convert to RGB for SwinV2
image_mean = image_processor.image_mean
image_std = image_processor.image_std
size = (
    image_processor.size["shortest_edge"]
    if "shortest_edge" in image_processor.size
    else (image_processor.size["height"], image_processor.size["width"])
)

train_transforms = Compose([
    Resize(size),
    RandomRotation(degrees=10),
    RandomHorizontalFlip(p=0.5),
    RandomVerticalFlip(p=0.3),
    ColorJitter(brightness=0.2, contrast=0.2),
    ToTensor(),
    Normalize(mean=image_mean, std=image_std),
])

val_transforms = Compose([
    Resize(size),
    ToTensor(),
    Normalize(mean=image_mean, std=image_std),
])

def preprocess_train(examples):
    # Convert grayscale to RGB
    examples["pixel_values"] = [
        train_transforms(img.convert("RGB")) for img in examples["image"]
    ]
    del examples["image"]
    return examples

def preprocess_val(examples):
    examples["pixel_values"] = [
        val_transforms(img.convert("RGB")) for img in examples["image"]
    ]
    del examples["image"]
    return examples

print("Applying transforms...")
train_ds = train_ds.with_transform(preprocess_train)
val_ds = val_ds.with_transform(preprocess_val)
test_ds = test_ds.with_transform(preprocess_val)

# ------------------------------------------------------------------
# Model
# ------------------------------------------------------------------
print(f"Loading model {MODEL_NAME}...")
model = AutoModelForImageClassification.from_pretrained(
    MODEL_NAME,
    num_labels=NUM_LABELS,
    id2label=ID2LABEL,
    label2id=LABEL2ID,
    ignore_mismatched_sizes=True,
)

# ------------------------------------------------------------------
# Training arguments
# ------------------------------------------------------------------
training_args = TrainingArguments(
    output_dir=OUTPUT_DIR,
    remove_unused_columns=False,
    eval_strategy="epoch",
    save_strategy="epoch",
    learning_rate=2e-5,
    per_device_train_batch_size=16,
    per_device_eval_batch_size=16,
    gradient_accumulation_steps=2,
    num_train_epochs=30,
    warmup_steps=100,
    weight_decay=0.01,
    logging_strategy="steps",
    logging_steps=10,
    logging_first_step=True,
    disable_tqdm=True,
    load_best_model_at_end=True,
    metric_for_best_model="eval_roc_auc",
    greater_is_better=True,
    push_to_hub=True,
    hub_model_id=HUB_MODEL_ID,
    report_to="trackio",
    run_name="thyroid-swinv2-binary",
    project="thyroid-malignancy",
    seed=42,
    bf16=True,
    dataloader_num_workers=4,
)

# ------------------------------------------------------------------
# Trainer
# ------------------------------------------------------------------
data_collator = DefaultDataCollator()

trainer = Trainer(
    model=model,
    args=training_args,
    data_collator=data_collator,
    train_dataset=train_ds,
    eval_dataset=val_ds,
    processing_class=image_processor,
    compute_metrics=compute_metrics,
    callbacks=[EarlyStoppingCallback(early_stopping_patience=5)],
)

print("Starting training...")
trainer.train()

print("Evaluating on test set...")
test_results = trainer.evaluate(test_ds, metric_key_prefix="test")
print("Test results:", test_results)

print("Pushing to Hub...")
trainer.push_to_hub()

print("Done!")