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import matplotlib.pyplot as plt |
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import matplotlib.colors as mcolors |
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import numpy as np |
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import json |
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import os |
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import os.path as osp |
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datasets = ["x_div_y", "x_minus_y", "x_plus_y", "permutation"] |
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folders = os.listdir("./") |
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final_results = {} |
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results_info = {} |
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for folder in folders: |
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if folder.startswith("run") and osp.isdir(folder): |
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with open(osp.join(folder, "final_info.json"), "r") as f: |
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final_results[folder] = json.load(f) |
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results_dict = np.load( |
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osp.join(folder, "all_results.npy"), allow_pickle=True |
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).item() |
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print(results_dict.keys()) |
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run_info = {} |
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for dataset in datasets: |
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run_info[dataset] = {} |
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val_losses = [] |
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train_losses = [] |
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val_accs = [] |
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train_accs = [] |
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for k in results_dict.keys(): |
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if dataset in k and "val_info" in k: |
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run_info[dataset]["step"] = [ |
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info["step"] for info in results_dict[k] |
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] |
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val_losses.append([info["val_loss"] for info in results_dict[k]]) |
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val_accs.append([info["val_accuracy"] for info in results_dict[k]]) |
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if dataset in k and "train_info" in k: |
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train_losses.append( |
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[info["train_loss"] for info in results_dict[k]] |
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) |
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train_accs.append( |
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[info["train_accuracy"] for info in results_dict[k]] |
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) |
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mean_val_losses = np.mean(val_losses, axis=0) |
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mean_train_losses = np.mean(train_losses, axis=0) |
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mean_val_accs = np.mean(val_accs, axis=0) |
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mean_train_accs = np.mean(train_accs, axis=0) |
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if len(val_losses) > 0: |
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sterr_val_losses = np.std(val_losses, axis=0) / np.sqrt( |
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len(val_losses) |
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) |
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stderr_train_losses = np.std(train_losses, axis=0) / np.sqrt( |
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len(train_losses) |
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) |
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sterr_val_accs = np.std(val_accs, axis=0) / np.sqrt(len(val_accs)) |
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stderr_train_accs = np.std(train_accs, axis=0) / np.sqrt( |
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len(train_accs) |
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) |
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else: |
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sterr_val_losses = np.zeros_like(mean_val_losses) |
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stderr_train_losses = np.zeros_like(mean_train_losses) |
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sterr_val_accs = np.zeros_like(mean_val_accs) |
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stderr_train_accs = np.zeros_like(mean_train_accs) |
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run_info[dataset]["val_loss"] = mean_val_losses |
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run_info[dataset]["train_loss"] = mean_train_losses |
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run_info[dataset]["val_loss_sterr"] = sterr_val_losses |
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run_info[dataset]["train_loss_sterr"] = stderr_train_losses |
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run_info[dataset]["val_acc"] = mean_val_accs |
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run_info[dataset]["train_acc"] = mean_train_accs |
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run_info[dataset]["val_acc_sterr"] = sterr_val_accs |
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run_info[dataset]["train_acc_sterr"] = stderr_train_accs |
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results_info[folder] = run_info |
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labels = { |
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"run_0": "Baseline", |
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"run_1": "Initial Layer-wise LR", |
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"run_2": "Adjusted Layer-wise LR", |
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"run_3": "Optimized Layer-wise LR", |
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"run_4": "Fine-tuned Layer-wise LR" |
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} |
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def generate_color_palette(n): |
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cmap = plt.get_cmap("tab20") |
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return [mcolors.rgb2hex(cmap(i)) for i in np.linspace(0, 1, n)] |
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runs = list(labels.keys()) |
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colors = generate_color_palette(len(runs)) |
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for dataset in datasets: |
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plt.figure(figsize=(10, 6)) |
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for i, run in enumerate(runs): |
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iters = results_info[run][dataset]["step"] |
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mean = results_info[run][dataset]["train_loss"] |
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sterr = results_info[run][dataset]["train_loss_sterr"] |
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plt.plot(iters, mean, label=labels[run], color=colors[i]) |
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plt.fill_between(iters, mean - sterr, mean + sterr, color=colors[i], alpha=0.2) |
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plt.title(f"Training Loss Across Runs for {dataset} Dataset") |
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plt.xlabel("Update Steps") |
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plt.ylabel("Training Loss") |
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plt.legend() |
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plt.grid(True, which="both", ls="-", alpha=0.2) |
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plt.tight_layout() |
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plt.savefig(f"train_loss_{dataset}.png") |
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plt.close() |
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for dataset in datasets: |
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plt.figure(figsize=(10, 6)) |
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for i, run in enumerate(runs): |
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iters = results_info[run][dataset]["step"] |
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mean = results_info[run][dataset]["val_loss"] |
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sterr = results_info[run][dataset]["val_loss_sterr"] |
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plt.plot(iters, mean, label=labels[run], color=colors[i]) |
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plt.fill_between(iters, mean - sterr, mean + sterr, color=colors[i], alpha=0.2) |
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plt.title(f"Validation Loss Across Runs for {dataset} Dataset") |
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plt.xlabel("Update Steps") |
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plt.ylabel("Validation Loss") |
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plt.legend() |
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plt.grid(True, which="both", ls="-", alpha=0.2) |
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plt.tight_layout() |
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plt.savefig(f"val_loss_{dataset}.png") |
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plt.close() |
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for dataset in datasets: |
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plt.figure(figsize=(10, 6)) |
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for i, run in enumerate(runs): |
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iters = results_info[run][dataset]["step"] |
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mean = results_info[run][dataset]["train_acc"] |
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sterr = results_info[run][dataset]["train_acc_sterr"] |
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plt.plot(iters, mean, label=labels[run], color=colors[i]) |
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plt.fill_between(iters, mean - sterr, mean + sterr, color=colors[i], alpha=0.2) |
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plt.title(f"Training Accuracy Across Runs for {dataset} Dataset") |
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plt.xlabel("Update Steps") |
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plt.ylabel("Training Acc") |
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plt.legend() |
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plt.grid(True, which="both", ls="-", alpha=0.2) |
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plt.tight_layout() |
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plt.savefig(f"train_acc_{dataset}.png") |
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plt.close() |
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for dataset in datasets: |
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plt.figure(figsize=(10, 6)) |
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for i, run in enumerate(runs): |
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iters = results_info[run][dataset]["step"] |
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mean = results_info[run][dataset]["val_acc"] |
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sterr = results_info[run][dataset]["val_acc_sterr"] |
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plt.plot(iters, mean, label=labels[run], color=colors[i]) |
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plt.fill_between(iters, mean - sterr, mean + sterr, color=colors[i], alpha=0.2) |
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plt.title(f"Validation Loss Across Runs for {dataset} Dataset") |
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plt.xlabel("Update Steps") |
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plt.ylabel("Validation Acc") |
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plt.legend() |
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plt.grid(True, which="both", ls="-", alpha=0.2) |
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plt.tight_layout() |
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plt.savefig(f"val_acc_{dataset}.png") |
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plt.close() |
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