data_loader.py

"""
Data Loader: Load from HuggingFace, parse JSON files, and build tables.
"""
import json
import pandas as pd
from pathlib import Path
from datasets import load_dataset


# Global caches
HF_DATASET_CACHE = {}
LEADERBOARD_CACHE = {}
DATA_DIR = Path("leaderboard_data")


def load_hf_dataset_on_startup():
    """Load all splits from HuggingFace dataset at startup."""
    print("Loading dataset from HuggingFace...")
    try:
        dataset = load_dataset("evaleval/every_eval_ever")
        
        for split_name, split_data in dataset.items():
            print(f"Loading split: {split_name} ({len(split_data)} rows)")
            
            df = split_data.to_pandas()
            parsed_items = []
            
            for _, row in df.iterrows():
                evaluation_results = json.loads(row['evaluation_results'])
                
                results = {}
                for eval_result in evaluation_results:
                    eval_name = eval_result.get("evaluation_name")
                    score = eval_result.get("score_details", {}).get("score")
                    if eval_name and score is not None:
                        results[eval_name] = score
                
                additional_details = {}
                if pd.notna(row.get('additional_details')):
                    additional_details = json.loads(row['additional_details'])
                
                parsed_item = {
                    "leaderboard": row['_leaderboard'],
                    "provider": row['source_organization_name'],
                    "model": row['model_id'],
                    "developer": row['model_developer'],
                    "params": additional_details.get('params_billions'),
                    "architecture": additional_details.get('architecture', 'Unknown'),
                    "precision": additional_details.get('precision', 'Unknown'),
                    "results": results,
                    "raw_data": {
                        "schema_version": row['schema_version'],
                        "evaluation_id": row['evaluation_id'],
                        "retrieved_timestamp": row['retrieved_timestamp'],
                        "source_data": json.loads(row['source_data']),
                        "evaluation_source": {
                            "evaluation_source_name": row['evaluation_source_name'],
                            "evaluation_source_type": row['evaluation_source_type']
                        },
                        "source_metadata": {
                            "source_organization_name": row['source_organization_name'],
                            "evaluator_relationship": row['evaluator_relationship'],
                        },
                        "model_info": {
                            "name": row['model_name'],
                            "id": row['model_id'],
                            "developer": row['model_developer'],
                        },
                        "evaluation_results": evaluation_results,
                        "additional_details": additional_details
                    }
                }
                
                if pd.notna(row.get('source_organization_url')):
                    parsed_item["raw_data"]["source_metadata"]["source_organization_url"] = row['source_organization_url']
                if pd.notna(row.get('source_organization_logo_url')):
                    parsed_item["raw_data"]["source_metadata"]["source_organization_logo_url"] = row['source_organization_logo_url']
                if pd.notna(row.get('model_inference_platform')):
                    parsed_item["raw_data"]["model_info"]["inference_platform"] = row['model_inference_platform']
                
                parsed_items.append(parsed_item)
            
            HF_DATASET_CACHE[split_name] = parsed_items
            
        print(f"Loaded {len(HF_DATASET_CACHE)} leaderboard(s) from HuggingFace")
        return True
    except Exception as e:
        print(f"Warning: Could not load HuggingFace dataset: {e}")
        print("Falling back to local file system...")
        return False


def parse_eval_json(file_path):
    """Parses a single JSON file to extract model, provider, and results."""
    try:
        with open(file_path, 'r') as f:
            data = json.load(f)
        
        leaderboard_name = data.get("evaluation_source", {}).get("evaluation_source_name", "Unknown Leaderboard")
        provider_name = data.get("source_metadata", {}).get("source_organization_name", "Unknown Provider")
        model_id = data.get("model_info", {}).get("id", "Unknown Model")
        developer_name = data.get("model_info", {}).get("developer", "Unknown Developer")
        
        params = data.get("model_info", {}).get("params_billions", None)
        architecture = data.get("model_info", {}).get("architecture", "Unknown")
        precision = data.get("additional_details", {}).get("precision", "Unknown")
        if precision == "Unknown":
             precision = data.get("model_info", {}).get("precision", "Unknown")
             
        results = {}
        if "evaluation_results" in data:
            for res in data["evaluation_results"]:
                eval_name = res.get("evaluation_name", "Unknown Metric")
                score = res.get("score_details", {}).get("score", None)
                if score is not None:
                    results[eval_name] = score
                    
        return {
            "leaderboard": leaderboard_name,
            "provider": provider_name,
            "model": model_id,
            "developer": developer_name,
            "params": params,
            "architecture": architecture,
            "precision": precision,
            "results": results,
            "raw_data": data
        }
    except Exception as e:
        print(f"Error parsing {file_path}: {e}")
        return None


def get_available_leaderboards():
    """Returns available leaderboards from HF cache or local directory."""
    if HF_DATASET_CACHE:
        return list(HF_DATASET_CACHE.keys())
    
    if not DATA_DIR.exists():
        return []
    return [d.name for d in DATA_DIR.iterdir() if d.is_dir()]


def walk_eval_files(leaderboard_name):
    """Generator that walks through Leaderboard directory recursively."""
    lb_path = DATA_DIR / leaderboard_name
    if not lb_path.exists():
        return
    yield from lb_path.rglob("*.json")


def get_eval_metadata(selected_leaderboard):
    """Extracts evaluation metadata from the leaderboard data."""
    if not selected_leaderboard:
        return {}
    
    eval_metadata = {"evals": {}, "source_info": {}}
    
    if selected_leaderboard in HF_DATASET_CACHE:
        parsed_items = HF_DATASET_CACHE[selected_leaderboard]
        if parsed_items:
            parsed = parsed_items[0]
            
            source_meta = parsed["raw_data"].get("source_metadata", {})
            source_data_list = parsed["raw_data"].get("source_data", [])
            url = source_data_list[0] if isinstance(source_data_list, list) and source_data_list else "#"
            
            eval_metadata["source_info"] = {
                "organization": source_meta.get("source_organization_name", "Unknown"),
                "relationship": source_meta.get("evaluator_relationship", "Unknown"),
                "url": url
            }
            
            if "evaluation_results" in parsed["raw_data"]:
                for res in parsed["raw_data"]["evaluation_results"]:
                    eval_name = res.get("evaluation_name", "Unknown Metric")
                    if eval_name not in eval_metadata["evals"]:
                        metric_config = res.get("metric_config", {})
                        eval_metadata["evals"][eval_name] = {
                            "description": metric_config.get("evaluation_description", "No description available"),
                            "score_type": metric_config.get("score_type", "unknown"),
                            "lower_is_better": metric_config.get("lower_is_better", False),
                            "min_score": metric_config.get("min_score"),
                            "max_score": metric_config.get("max_score"),
                            "level_names": metric_config.get("level_names", []),
                            "level_metadata": metric_config.get("level_metadata", []),
                            "has_unknown_level": metric_config.get("has_unknown_level", False)
                        }
        return eval_metadata
    
    # Fall back to file system
    for json_file in walk_eval_files(selected_leaderboard):
        parsed = parse_eval_json(json_file)
        if parsed:
            if not eval_metadata["source_info"]:
                 source_meta = parsed["raw_data"].get("source_metadata", {})
                 source_data_list = parsed["raw_data"].get("source_data", [])
                 url = source_data_list[0] if isinstance(source_data_list, list) and source_data_list else "#"
                 
                 eval_metadata["source_info"] = {
                     "organization": source_meta.get("source_organization_name", "Unknown"),
                     "relationship": source_meta.get("evaluator_relationship", "Unknown"),
                     "url": url
                 }
            
            if "evaluation_results" in parsed["raw_data"]:
                for res in parsed["raw_data"]["evaluation_results"]:
                    eval_name = res.get("evaluation_name", "Unknown Metric")
                    if eval_name not in eval_metadata["evals"]:
                        metric_config = res.get("metric_config", {})
                        eval_metadata["evals"][eval_name] = {
                            "description": metric_config.get("evaluation_description", "No description available"),
                            "score_type": metric_config.get("score_type", "unknown"),
                            "lower_is_better": metric_config.get("lower_is_better", False),
                            "min_score": metric_config.get("min_score"),
                            "max_score": metric_config.get("max_score"),
                            "level_names": metric_config.get("level_names", []),
                            "level_metadata": metric_config.get("level_metadata", []),
                            "has_unknown_level": metric_config.get("has_unknown_level", False)
                        }
            break
    
    return eval_metadata


def build_leaderboard_table(selected_leaderboard, search_query="", progress_callback=None):
    """Builds the leaderboard DataFrame from cache or files."""
    if not selected_leaderboard:
        return pd.DataFrame()
    
    if selected_leaderboard in LEADERBOARD_CACHE:
        df, _ = LEADERBOARD_CACHE[selected_leaderboard]
    else:
        rows = []
        
        if selected_leaderboard in HF_DATASET_CACHE:
            if progress_callback:
                progress_callback(0, desc=f"Loading {selected_leaderboard} from cache...")
            
            parsed_items = HF_DATASET_CACHE[selected_leaderboard]
            
            for i, parsed in enumerate(parsed_items):
                if i % 100 == 0 and progress_callback:
                    progress_callback((i / len(parsed_items)), desc=f"Processing {selected_leaderboard}...")
                
                row = {
                    "Model": parsed["model"], 
                    "Developer": parsed["developer"],
                    "Params (B)": parsed["params"],
                    "Arch": parsed["architecture"],
                    "Precision": parsed["precision"]
                }
                row.update(parsed["results"])
                rows.append(row)
        else:
            # Fall back to file system
            if progress_callback:
                progress_callback(0, desc=f"Scanning {selected_leaderboard}...")
            
            all_files = list(walk_eval_files(selected_leaderboard))
            total_files = len(all_files)
            
            for i, json_file in enumerate(all_files):
                if i % 100 == 0 and progress_callback:
                     progress_callback((i / total_files), desc=f"Loading {selected_leaderboard}...")
                
                parsed = parse_eval_json(json_file)
                if parsed:
                    row = {
                        "Model": parsed["model"], 
                        "Developer": parsed["developer"],
                        "Params (B)": parsed["params"],
                        "Arch": parsed["architecture"],
                        "Precision": parsed["precision"]
                    }
                    row.update(parsed["results"])
                    rows.append(row)
        
        if not rows:
            df = pd.DataFrame(columns=["Model", "Developer", "Params (B)", "Arch", "Precision"])
            LEADERBOARD_CACHE[selected_leaderboard] = (df, None)
            return df
        
        df = pd.DataFrame(rows)
        df = df.dropna(axis=1, how='all')
        
        if df.empty:
             LEADERBOARD_CACHE[selected_leaderboard] = (df, None)
             return df

        numeric_cols = df.select_dtypes(include=['float', 'int']).columns
        df[numeric_cols] = df[numeric_cols].round(2)
        
        # Add Average Score
        eval_only_cols = [c for c in numeric_cols if c not in ["Params (B)"]]
        if len(eval_only_cols) > 0:
            df["Average"] = df[eval_only_cols].mean(axis=1).round(2)

        # Base columns: Model, Developer, Params, Average
        # Eval columns: all evaluation scores
        # Model detail columns: Arch, Precision (moved to end)
        base_cols = ["Model", "Developer", "Params (B)", "Average"]
        model_detail_cols = ["Arch", "Precision"]
        eval_cols = [c for c in df.columns if c not in base_cols and c not in model_detail_cols]
        base_cols = [c for c in base_cols if c in df.columns]
        model_detail_cols = [c for c in model_detail_cols if c in df.columns]
        
        final_cols = base_cols + sorted(eval_cols) + model_detail_cols
        df = df[final_cols]
        
        if "Average" in df.columns:
            df = df.sort_values("Average", ascending=False)
        
        LEADERBOARD_CACHE[selected_leaderboard] = (df, None)
    
    return df


def clear_cache():
    """Clears all caches."""
    LEADERBOARD_CACHE.clear()


def search_model_across_leaderboards(model_query):
    """Search for a model across all leaderboards and return aggregated results."""
    if not model_query or not HF_DATASET_CACHE:
        return {}, []
    
    model_query_lower = model_query.lower().strip()
    results = {}
    all_matches = []
    
    for leaderboard_name, parsed_items in HF_DATASET_CACHE.items():
        for item in parsed_items:
            model_id = item.get("model", "")
            # Check if query matches model name (case insensitive, partial match)
            if model_query_lower in model_id.lower():
                all_matches.append(model_id)
                
                # Exact match gets priority
                if model_id.lower() == model_query_lower or model_id == model_query:
                    if model_id not in results:
                        results[model_id] = {}
                    results[model_id][leaderboard_name] = {
                        "developer": item.get("developer"),
                        "params": item.get("params"),
                        "architecture": item.get("architecture"),
                        "precision": item.get("precision"),
                        "results": item.get("results", {})
                    }
    
    # If no exact match, use partial matches
    if not results and all_matches:
        # Get the first partial match
        for leaderboard_name, parsed_items in HF_DATASET_CACHE.items():
            for item in parsed_items:
                model_id = item.get("model", "")
                if model_query_lower in model_id.lower():
                    if model_id not in results:
                        results[model_id] = {}
                    results[model_id][leaderboard_name] = {
                        "developer": item.get("developer"),
                        "params": item.get("params"),
                        "architecture": item.get("architecture"),
                        "precision": item.get("precision"),
                        "results": item.get("results", {})
                    }
    
    # Return unique matches for autocomplete
    unique_matches = sorted(set(all_matches))[:20]  # Limit to 20 suggestions
    
    return results, unique_matches


def get_all_model_names():
    """Get all unique model names across all leaderboards."""
    if not HF_DATASET_CACHE:
        return []
    
    models = set()
    for parsed_items in HF_DATASET_CACHE.values():
        for item in parsed_items:
            models.add(item.get("model", ""))
    
    return sorted(models)