Mercurial > repos > goeckslab > image_learner
view ludwig_backend.py @ 12:bcfa2e234a80 draft default tip
planemo upload for repository https://github.com/goeckslab/gleam.git commit 96bab8325992d16fcaad8e0a4dc4c62b00e2abc2
| author | goeckslab |
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| date | Fri, 21 Nov 2025 15:58:13 +0000 |
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import json import logging from pathlib import Path from typing import Any, Dict, Optional, Protocol, Tuple import pandas as pd import pandas.api.types as ptypes import yaml from constants import ( IMAGE_PATH_COLUMN_NAME, LABEL_COLUMN_NAME, MODEL_ENCODER_TEMPLATES, SPLIT_COLUMN_NAME, ) from html_structure import ( build_tabbed_html, encode_image_to_base64, format_config_table_html, format_stats_table_html, format_test_merged_stats_table_html, format_train_val_stats_table_html, get_html_closing, get_html_template, get_metrics_help_modal, ) from ludwig.globals import ( DESCRIPTION_FILE_NAME, PREDICTIONS_PARQUET_FILE_NAME, TEST_STATISTICS_FILE_NAME, TRAIN_SET_METADATA_FILE_NAME, ) from ludwig.utils.data_utils import get_split_path from metaformer_setup import get_visualizations_registry, META_DEFAULT_CFGS from plotly_plots import build_classification_plots from utils import detect_output_type, extract_metrics_from_json logger = logging.getLogger("ImageLearner") class Backend(Protocol): """Interface for a machine learning backend.""" def prepare_config( self, config_params: Dict[str, Any], split_config: Dict[str, Any], ) -> str: ... def run_experiment( self, dataset_path: Path, config_path: Path, output_dir: Path, random_seed: int, ) -> None: ... def generate_plots(self, output_dir: Path) -> None: ... def generate_html_report( self, title: str, output_dir: str, config: Dict[str, Any], split_info: str, ) -> Path: ... class LudwigDirectBackend: """Backend for running Ludwig experiments directly via the internal experiment_cli function.""" def _detect_image_dimensions(self, image_zip_path: str) -> Tuple[int, int]: """Detect image dimensions from the first image in the dataset.""" try: import zipfile from PIL import Image import io # Check if image_zip is provided if not image_zip_path: logger.warning("No image zip provided, using default 224x224") return 224, 224 # Extract first image to detect dimensions with zipfile.ZipFile(image_zip_path, 'r') as z: image_files = [f for f in z.namelist() if f.lower().endswith(('.png', '.jpg', '.jpeg'))] if not image_files: logger.warning("No image files found in zip, using default 224x224") return 224, 224 # Check first image with z.open(image_files[0]) as f: img = Image.open(io.BytesIO(f.read())) width, height = img.size logger.info(f"Detected image dimensions: {width}x{height}") return height, width # Return as (height, width) to match encoder config except Exception as e: logger.warning(f"Error detecting image dimensions: {e}, using default 224x224") return 224, 224 def prepare_config( self, config_params: Dict[str, Any], split_config: Dict[str, Any], ) -> str: logger.info("LudwigDirectBackend: Preparing YAML configuration.") model_name = config_params.get("model_name", "resnet18") use_pretrained = config_params.get("use_pretrained", False) fine_tune = config_params.get("fine_tune", False) if use_pretrained: trainable = bool(fine_tune) else: trainable = True epochs = config_params.get("epochs", 10) batch_size = config_params.get("batch_size") num_processes = config_params.get("preprocessing_num_processes", 1) early_stop = config_params.get("early_stop", None) learning_rate = config_params.get("learning_rate") learning_rate = "auto" if learning_rate is None else float(learning_rate) raw_encoder = MODEL_ENCODER_TEMPLATES.get(model_name, model_name) # --- MetaFormer detection and config logic --- def _is_metaformer(name: str) -> bool: return isinstance(name, str) and name.startswith( ( "identityformer_", "randformer_", "poolformerv2_", "convformer_", "caformer_", ) ) # Check if this is a MetaFormer model (either direct name or in custom_model) is_metaformer = ( _is_metaformer(model_name) or (isinstance(raw_encoder, dict) and "custom_model" in raw_encoder and _is_metaformer(raw_encoder["custom_model"])) ) metaformer_resize: Optional[Tuple[int, int]] = None metaformer_channels = 3 if is_metaformer: # Handle MetaFormer models custom_model = None if isinstance(raw_encoder, dict) and "custom_model" in raw_encoder: custom_model = raw_encoder["custom_model"] else: custom_model = model_name logger.info(f"DETECTED MetaFormer model: {custom_model}") cfg_channels, cfg_height, cfg_width = 3, 224, 224 if META_DEFAULT_CFGS: model_cfg = META_DEFAULT_CFGS.get(custom_model, {}) input_size = model_cfg.get("input_size") if isinstance(input_size, (list, tuple)) and len(input_size) == 3: cfg_channels, cfg_height, cfg_width = ( int(input_size[0]), int(input_size[1]), int(input_size[2]), ) target_height, target_width = cfg_height, cfg_width resize_value = config_params.get("image_resize") if resize_value and resize_value != "original": try: dimensions = resize_value.split("x") if len(dimensions) == 2: target_height, target_width = int(dimensions[0]), int(dimensions[1]) if target_height <= 0 or target_width <= 0: raise ValueError( f"Image resize must be positive integers, received {resize_value}." ) logger.info(f"MetaFormer explicit resize: {target_height}x{target_width}") else: raise ValueError(resize_value) except (ValueError, IndexError): logger.warning( "Invalid image resize format '%s'; falling back to model default %sx%s", resize_value, cfg_height, cfg_width, ) target_height, target_width = cfg_height, cfg_width else: image_zip_path = config_params.get("image_zip", "") detected_height, detected_width = self._detect_image_dimensions(image_zip_path) if use_pretrained: if (detected_height, detected_width) != (cfg_height, cfg_width): logger.info( "MetaFormer pretrained weights expect %sx%s; resizing from detected %sx%s", cfg_height, cfg_width, detected_height, detected_width, ) else: target_height, target_width = detected_height, detected_width if target_height <= 0 or target_width <= 0: raise ValueError( f"Invalid detected image dimensions for MetaFormer: {target_height}x{target_width}." ) metaformer_channels = cfg_channels metaformer_resize = (target_height, target_width) encoder_config = { "type": "stacked_cnn", "height": target_height, "width": target_width, "num_channels": metaformer_channels, "output_size": 128, "use_pretrained": use_pretrained, "trainable": trainable, "custom_model": custom_model, } elif isinstance(raw_encoder, dict): # Handle image resize for regular encoders # Note: Standard encoders like ResNet don't support height/width parameters # Resize will be handled at the preprocessing level by Ludwig if config_params.get("image_resize") and config_params["image_resize"] != "original": logger.info(f"Resize requested: {config_params['image_resize']} for standard encoder. Resize will be handled at preprocessing level.") encoder_config = { **raw_encoder, "use_pretrained": use_pretrained, "trainable": trainable, } else: encoder_config = {"type": raw_encoder} batch_size_cfg = batch_size or "auto" label_column_path = config_params.get("label_column_data_path") label_series = None label_metadata_hint = config_params.get("label_metadata") or {} output_type_hint = config_params.get("output_type_hint") num_unique_labels = int(label_metadata_hint.get("num_unique", 2)) numeric_binary_labels = bool(label_metadata_hint.get("is_numeric_binary", False)) likely_regression = bool(label_metadata_hint.get("likely_regression", False)) if label_column_path is not None and Path(label_column_path).exists(): try: label_series = pd.read_csv(label_column_path)[LABEL_COLUMN_NAME] non_na = label_series.dropna() if not non_na.empty: num_unique_labels = non_na.nunique() is_numeric = ptypes.is_numeric_dtype(label_series.dtype) numeric_binary_labels = is_numeric and num_unique_labels == 2 likely_regression = ( is_numeric and not numeric_binary_labels and num_unique_labels > 10 ) if numeric_binary_labels: logger.info( "Detected numeric binary labels in '%s'; configuring Ludwig for binary classification.", LABEL_COLUMN_NAME, ) except Exception as e: logger.warning(f"Could not read label column for task detection: {e}") if output_type_hint == "binary": num_unique_labels = 2 numeric_binary_labels = numeric_binary_labels or bool( label_metadata_hint.get("is_numeric", False) ) if numeric_binary_labels: task_type = "classification" elif likely_regression: task_type = "regression" else: task_type = "classification" if task_type == "regression" and numeric_binary_labels: logger.warning( "Numeric binary labels detected but regression task chosen; forcing classification to avoid invalid Ludwig config." ) task_type = "classification" config_params["task_type"] = task_type image_feat: Dict[str, Any] = { "name": IMAGE_PATH_COLUMN_NAME, "type": "image", } # Set preprocessing dimensions FIRST for MetaFormer models if is_metaformer: if metaformer_resize is None: metaformer_resize = (224, 224) height, width = metaformer_resize # CRITICAL: Set preprocessing dimensions FIRST for MetaFormer models # This is essential for MetaFormer models to work properly if "preprocessing" not in image_feat: image_feat["preprocessing"] = {} image_feat["preprocessing"]["height"] = height image_feat["preprocessing"]["width"] = width # Use infer_image_dimensions=True to allow Ludwig to read images for validation # but set explicit max dimensions to control the output size image_feat["preprocessing"]["infer_image_dimensions"] = True image_feat["preprocessing"]["infer_image_max_height"] = height image_feat["preprocessing"]["infer_image_max_width"] = width image_feat["preprocessing"]["num_channels"] = metaformer_channels image_feat["preprocessing"]["resize_method"] = "interpolate" # Use interpolation for better quality image_feat["preprocessing"]["standardize_image"] = "imagenet1k" # Use ImageNet standardization # Force Ludwig to respect our dimensions by setting additional parameters image_feat["preprocessing"]["requires_equal_dimensions"] = False logger.info(f"Set preprocessing dimensions for MetaFormer: {height}x{width} (infer_dimensions=True with max dimensions to allow validation)") # Now set the encoder configuration image_feat["encoder"] = encoder_config if config_params.get("augmentation") is not None: image_feat["augmentation"] = config_params["augmentation"] # Add resize configuration for standard encoders (ResNet, etc.) # FIXED: MetaFormer models now respect user dimensions completely # Previously there was a double resize issue where MetaFormer would force 224x224 # Now both MetaFormer and standard encoders respect user's resize choice if (not is_metaformer) and config_params.get("image_resize") and config_params["image_resize"] != "original": try: dimensions = config_params["image_resize"].split("x") if len(dimensions) == 2: height, width = int(dimensions[0]), int(dimensions[1]) if height <= 0 or width <= 0: raise ValueError( f"Image resize must be positive integers, received {config_params['image_resize']}." ) # Add resize to preprocessing for standard encoders if "preprocessing" not in image_feat: image_feat["preprocessing"] = {} image_feat["preprocessing"]["height"] = height image_feat["preprocessing"]["width"] = width # Use infer_image_dimensions=True to allow Ludwig to read images for validation # but set explicit max dimensions to control the output size image_feat["preprocessing"]["infer_image_dimensions"] = True image_feat["preprocessing"]["infer_image_max_height"] = height image_feat["preprocessing"]["infer_image_max_width"] = width logger.info(f"Added resize preprocessing: {height}x{width} for standard encoder with infer_image_dimensions=True and max dimensions") except (ValueError, IndexError): logger.warning(f"Invalid image resize format: {config_params['image_resize']}, skipping resize preprocessing") if task_type == "regression": output_feat = { "name": LABEL_COLUMN_NAME, "type": "number", "decoder": {"type": "regressor"}, "loss": {"type": "mean_squared_error"}, } val_metric = config_params.get("validation_metric", "mean_squared_error") else: if num_unique_labels == 2: output_feat = { "name": LABEL_COLUMN_NAME, "type": "binary", "loss": {"type": "binary_weighted_cross_entropy"}, } if config_params.get("threshold") is not None: output_feat["threshold"] = float(config_params["threshold"]) else: output_feat = { "name": LABEL_COLUMN_NAME, "type": "category", "loss": {"type": "softmax_cross_entropy"}, } val_metric = None conf: Dict[str, Any] = { "model_type": "ecd", "input_features": [image_feat], "output_features": [output_feat], "combiner": {"type": "concat"}, "trainer": { "epochs": epochs, "early_stop": early_stop, "batch_size": batch_size_cfg, "learning_rate": learning_rate, # only set validation_metric for regression **({"validation_metric": val_metric} if val_metric else {}), }, "preprocessing": { "split": split_config, "num_processes": num_processes, "in_memory": False, }, } logger.debug("LudwigDirectBackend: Config dict built.") try: yaml_str = yaml.dump(conf, sort_keys=False, indent=2) logger.info("LudwigDirectBackend: YAML config generated.") return yaml_str except Exception: logger.error( "LudwigDirectBackend: Failed to serialize YAML.", exc_info=True, ) raise def run_experiment( self, dataset_path: Path, config_path: Path, output_dir: Path, random_seed: int = 42, ) -> None: """Invoke Ludwig's internal experiment_cli function to run the experiment.""" logger.info("LudwigDirectBackend: Starting experiment execution.") try: from ludwig.experiment import experiment_cli except ImportError as e: logger.error( "LudwigDirectBackend: Could not import experiment_cli.", exc_info=True, ) raise RuntimeError("Ludwig import failed.") from e output_dir.mkdir(parents=True, exist_ok=True) try: experiment_cli( dataset=str(dataset_path), config=str(config_path), output_directory=str(output_dir), random_seed=random_seed, skip_preprocessing=True, ) logger.info( f"LudwigDirectBackend: Experiment completed. Results in {output_dir}" ) except TypeError as e: logger.error( "LudwigDirectBackend: Argument mismatch in experiment_cli call.", exc_info=True, ) raise RuntimeError("Ludwig argument error.") from e except Exception: logger.error( "LudwigDirectBackend: Experiment execution error.", exc_info=True, ) raise def get_training_process(self, output_dir) -> Optional[Dict[str, Any]]: """Retrieve the learning rate used in the most recent Ludwig run.""" output_dir = Path(output_dir) exp_dirs = sorted( output_dir.glob("experiment_run*"), key=lambda p: p.stat().st_mtime, ) if not exp_dirs: logger.warning(f"No experiment run directories found in {output_dir}") return None progress_file = exp_dirs[-1] / "model" / "training_progress.json" if not progress_file.exists(): logger.warning(f"No training_progress.json found in {progress_file}") return None try: with progress_file.open("r", encoding="utf-8") as f: data = json.load(f) return { "learning_rate": data.get("learning_rate"), "batch_size": data.get("batch_size"), "epoch": data.get("epoch"), } except Exception as e: logger.warning(f"Failed to read training progress info: {e}") return {} def convert_parquet_to_csv(self, output_dir: Path): """Convert the predictions Parquet file to CSV.""" output_dir = Path(output_dir) exp_dirs = sorted( output_dir.glob("experiment_run*"), key=lambda p: p.stat().st_mtime, ) if not exp_dirs: logger.warning(f"No experiment run dirs found in {output_dir}") return exp_dir = exp_dirs[-1] parquet_path = exp_dir / PREDICTIONS_PARQUET_FILE_NAME csv_path = exp_dir / "predictions.csv" # Check if parquet file exists before trying to convert if not parquet_path.exists(): logger.info(f"Predictions parquet file not found at {parquet_path}, skipping conversion") return try: df = pd.read_parquet(parquet_path) df.to_csv(csv_path, index=False) logger.info(f"Converted Parquet to CSV: {csv_path}") except Exception as e: logger.error(f"Error converting Parquet to CSV: {e}") def generate_plots(self, output_dir: Path) -> None: """Generate all registered Ludwig visualizations for the latest experiment run.""" logger.info("Generating all Ludwig visualizations…") test_plots = { "compare_performance", "compare_classifiers_performance_from_prob", "compare_classifiers_performance_from_pred", "compare_classifiers_performance_changing_k", "compare_classifiers_multiclass_multimetric", "compare_classifiers_predictions", "confidence_thresholding_2thresholds_2d", "confidence_thresholding_2thresholds_3d", "confidence_thresholding", "confidence_thresholding_data_vs_acc", "binary_threshold_vs_metric", "roc_curves", "roc_curves_from_test_statistics", "calibration_1_vs_all", "calibration_multiclass", "confusion_matrix", "frequency_vs_f1", } train_plots = { "learning_curves", "compare_classifiers_performance_subset", } output_dir = Path(output_dir) exp_dirs = sorted( output_dir.glob("experiment_run*"), key=lambda p: p.stat().st_mtime, ) if not exp_dirs: logger.warning(f"No experiment run dirs found in {output_dir}") return exp_dir = exp_dirs[-1] viz_dir = exp_dir / "visualizations" viz_dir.mkdir(exist_ok=True) train_viz = viz_dir / "train" test_viz = viz_dir / "test" train_viz.mkdir(parents=True, exist_ok=True) test_viz.mkdir(parents=True, exist_ok=True) def _check(p: Path) -> Optional[str]: return str(p) if p.exists() else None training_stats = _check(exp_dir / "training_statistics.json") test_stats = _check(exp_dir / TEST_STATISTICS_FILE_NAME) probs_path = _check(exp_dir / PREDICTIONS_PARQUET_FILE_NAME) gt_metadata = _check(exp_dir / "model" / TRAIN_SET_METADATA_FILE_NAME) dataset_path = None split_file = None desc = exp_dir / DESCRIPTION_FILE_NAME if desc.exists(): with open(desc, "r") as f: cfg = json.load(f) dataset_path = _check(Path(cfg.get("dataset", ""))) split_file = _check(Path(get_split_path(cfg.get("dataset", "")))) output_feature = "" if desc.exists(): try: output_feature = cfg["config"]["output_features"][0]["name"] except Exception: pass if not output_feature and test_stats: with open(test_stats, "r") as f: stats = json.load(f) output_feature = next(iter(stats.keys()), "") viz_registry = get_visualizations_registry() for viz_name, viz_func in viz_registry.items(): if viz_name in train_plots: viz_dir_plot = train_viz elif viz_name in test_plots: viz_dir_plot = test_viz else: continue try: viz_func( training_statistics=[training_stats] if training_stats else [], test_statistics=[test_stats] if test_stats else [], probabilities=[probs_path] if probs_path else [], output_feature_name=output_feature, ground_truth_split=2, top_n_classes=[0], top_k=3, ground_truth_metadata=gt_metadata, ground_truth=dataset_path, split_file=split_file, output_directory=str(viz_dir_plot), normalize=False, file_format="png", ) logger.info(f"✔ Generated {viz_name}") except Exception as e: logger.warning(f"✘ Skipped {viz_name}: {e}") logger.info(f"All visualizations written to {viz_dir}") def generate_html_report( self, title: str, output_dir: str, config: dict, split_info: str, ) -> Path: """Assemble an HTML report from visualizations under train_val/ and test/ folders.""" cwd = Path.cwd() report_name = title.lower().replace(" ", "_") + "_report.html" report_path = cwd / report_name output_dir = Path(output_dir) output_type = None exp_dirs = sorted( output_dir.glob("experiment_run*"), key=lambda p: p.stat().st_mtime, ) if not exp_dirs: raise RuntimeError(f"No 'experiment*' dirs found in {output_dir}") exp_dir = exp_dirs[-1] base_viz_dir = exp_dir / "visualizations" train_viz_dir = base_viz_dir / "train" test_viz_dir = base_viz_dir / "test" html = get_html_template() # Extra CSS & JS: center Plotly and enable CSV download for predictions table html += """ <style> /* Center Plotly figures (both wrapper and native classes) */ .plotly-center { display: flex; justify-content: center; } .plotly-center .plotly-graph-div, .plotly-center .js-plotly-plot { margin: 0 auto !important; } .js-plotly-plot, .plotly-graph-div { margin-left: auto !important; margin-right: auto !important; } /* Download button for predictions table */ .download-btn { padding: 8px 12px; border: 1px solid #4CAF50; background: #4CAF50; color: white; border-radius: 6px; cursor: pointer; } .download-btn:hover { filter: brightness(0.95); } .preds-controls { display: flex; justify-content: flex-end; gap: 8px; margin: 8px 0; } </style> <script> function tableToCSV(table){ const rows = Array.from(table.querySelectorAll('tr')); return rows.map(row => Array.from(row.querySelectorAll('th,td')).map(cell => { let text = cell.innerText.replace(/\\r?\\n|\\r/g,' ').trim(); if (text.includes('"') || text.includes(',')) { text = '"' + text.replace(/"/g,'""') + '"'; } return text; }).join(',') ).join('\\n'); } document.addEventListener('DOMContentLoaded', function(){ const btn = document.getElementById('downloadPredsCsv'); if(btn){ btn.addEventListener('click', function(){ const tbl = document.querySelector('.predictions-table'); if(!tbl){ alert('Predictions table not found.'); return; } const csv = tableToCSV(tbl); const blob = new Blob([csv], {type: 'text/csv;charset=utf-8;'}); const url = URL.createObjectURL(blob); const a = document.createElement('a'); a.href = url; a.download = 'ground_truth_vs_predictions.csv'; document.body.appendChild(a); a.click(); document.body.removeChild(a); URL.revokeObjectURL(url); }); } }); </script> """ html += f"<h1>{title}</h1>" metrics_html = "" train_val_metrics_html = "" test_metrics_html = "" try: train_stats_path = exp_dir / "training_statistics.json" test_stats_path = exp_dir / TEST_STATISTICS_FILE_NAME if train_stats_path.exists() and test_stats_path.exists(): with open(train_stats_path) as f: train_stats = json.load(f) with open(test_stats_path) as f: test_stats = json.load(f) output_type = detect_output_type(test_stats) metrics_html = format_stats_table_html(train_stats, test_stats, output_type) train_val_metrics_html = format_train_val_stats_table_html( train_stats, test_stats ) test_metrics_html = format_test_merged_stats_table_html( extract_metrics_from_json(train_stats, test_stats, output_type)[ "test" ], output_type ) except Exception as e: logger.warning( f"Could not load stats for HTML report: {type(e).__name__}: {e}" ) config_html = "" training_progress = self.get_training_process(output_dir) try: config_html = format_config_table_html( config, split_info, training_progress, output_type ) except Exception as e: logger.warning(f"Could not load config for HTML report: {e}") # ---------- image rendering with exclusions ---------- def render_img_section( title: str, dir_path: Path, output_type: str = None, exclude_names: Optional[set] = None, ) -> str: if not dir_path.exists(): return f"<h2>{title}</h2><p><em>Directory not found.</em></p>" exclude_names = exclude_names or set() imgs = list(dir_path.glob("*.png")) # Exclude ROC curves and standard confusion matrices (keep only entropy version) default_exclude = { # "roc_curves.png", # Remove ROC curves from test tab "confusion_matrix__label_top5.png", # Remove standard confusion matrix "confusion_matrix__label_top10.png", # Remove duplicate "confusion_matrix__label_top6.png", # Remove duplicate "confusion_matrix_entropy__label_top10.png", # Keep only top5 "confusion_matrix_entropy__label_top6.png", # Keep only top5 } title_is_test = title.lower().startswith("test") if title_is_test and output_type == "binary": default_exclude.update( { "confusion_matrix__label_top2.png", "confusion_matrix_entropy__label_top2.png", "roc_curves_from_prediction_statistics.png", } ) elif title_is_test and output_type == "category": default_exclude.update( { "compare_classifiers_multiclass_multimetric__label_best10.png", "compare_classifiers_multiclass_multimetric__label_sorted.png", "compare_classifiers_multiclass_multimetric__label_worst10.png", } ) imgs = [ img for img in imgs if img.name not in default_exclude and img.name not in exclude_names ] if not imgs: return f"<h2>{title}</h2><p><em>No plots found.</em></p>" # Sort images by name for consistent ordering (works with string and numeric labels) imgs = sorted(imgs, key=lambda x: x.name) html_section = "" custom_titles = { "compare_classifiers_multiclass_multimetric__label_top10": "Metric Comparison by Label", "compare_classifiers_performance_from_prob": "Label Metric Comparison by Probability", } for img in imgs: b64 = encode_image_to_base64(str(img)) default_title = img.stem.replace("_", " ").title() img_title = custom_titles.get(img.stem, default_title) html_section += ( f"<h2 style='text-align: center;'>{img_title}</h2>" f'<div class="plot" style="margin-bottom:20px;text-align:center;">' f'<img src="data:image/png;base64,{b64}" ' f'style="max-width:90%;max-height:600px;border:1px solid #ddd;" />' f"</div>" ) return html_section tab1_content = config_html + metrics_html tab2_content = train_val_metrics_html + render_img_section( "Training and Validation Visualizations", train_viz_dir, output_type, exclude_names={ "compare_classifiers_performance_from_prob.png", "roc_curves_from_prediction_statistics.png", "precision_recall_curves_from_prediction_statistics.png", "precision_recall_curve.png", }, ) # --- Predictions vs Ground Truth table (REGRESSION ONLY) --- preds_section = "" parquet_path = exp_dir / PREDICTIONS_PARQUET_FILE_NAME if output_type == "regression" and parquet_path.exists(): try: # 1) load predictions from Parquet df_preds = pd.read_parquet(parquet_path).reset_index(drop=True) # assume the column containing your model's prediction is named "prediction" # or contains that substring: pred_col = next( (c for c in df_preds.columns if "prediction" in c.lower()), None, ) if pred_col is None: raise ValueError("No prediction column found in Parquet output") df_pred = df_preds[[pred_col]].rename(columns={pred_col: "prediction"}) # 2) load ground truth for the test split from prepared CSV df_all = pd.read_csv(config["label_column_data_path"]) df_gt = df_all[df_all[SPLIT_COLUMN_NAME] == 2][ LABEL_COLUMN_NAME ].reset_index(drop=True) # 3) concatenate side-by-side df_table = pd.concat([df_gt, df_pred], axis=1) df_table.columns = [LABEL_COLUMN_NAME, "prediction"] # 4) render as HTML preds_html = df_table.to_html(index=False, classes="predictions-table") preds_section = ( "<h2 style='text-align: center;'>Ground Truth vs. Predictions</h2>" "<div class='preds-controls'>" "<button id='downloadPredsCsv' class='download-btn'>Download CSV</button>" "</div>" "<div class='scroll-rows-30' style='overflow-x:auto; overflow-y:auto; max-height:900px; margin-bottom:20px;'>" + preds_html + "</div>" ) except Exception as e: logger.warning(f"Could not build Predictions vs GT table: {e}") tab3_content = test_metrics_html + preds_section if output_type in ("binary", "category") and test_stats_path.exists(): try: interactive_plots = build_classification_plots( str(test_stats_path), str(train_stats_path) if train_stats_path.exists() else None, ) for plot in interactive_plots: tab3_content += ( f"<h2 style='text-align: center;'>{plot['title']}</h2>" f"<div class='plotly-center'>{plot['html']}</div>" ) logger.info(f"Generated {len(interactive_plots)} interactive Plotly plots") except Exception as e: logger.warning(f"Could not generate Plotly plots: {e}") # Add static TEST PNGs (with default dedupe/exclusions) tab3_content += render_img_section( "Test Visualizations", test_viz_dir, output_type ) tabbed_html = build_tabbed_html(tab1_content, tab2_content, tab3_content) modal_html = get_metrics_help_modal() html += tabbed_html + modal_html + get_html_closing() try: with open(report_path, "w") as f: f.write(html) logger.info(f"HTML report generated at: {report_path}") except Exception as e: logger.error(f"Failed to write HTML report: {e}") raise return report_path