utils.py

import pandas as pd
import json
from typing import Dict, Any, Tuple

# Keep all the constant mappings outside the class
MODEL_NAME_MAP = {
    "Claude_3.5_new": "Claude-3.5-Sonnet (1022)",
    "GPT_4o": "GPT-4o (0513)",
    "Claude_3.5": "Claude-3.5-Sonnet (0622)",
    "Gemini_1.5_pro_002": "Gemini-1.5-Pro-002",
    "InternVL2_76B": "InternVL2-Llama3-76B",
    "Qwen2_VL_72B": "Qwen2-VL-72B",
    "llava_onevision_72B": "Llava-OneVision-72B",
    "NVLM": "NVLM-72B",
    "GPT_4o_mini": "GPT-4o mini",
    "Gemini_1.5_flash_002": "Gemini-1.5-Flash-002",
    "Pixtral_12B": "Pixtral 12B",
    "Aria": "Aria-MoE-25B",
    "Qwen2_VL_7B": "Qwen2-VL-7B",
    "InternVL2_8B": "InternVL2-8B",
    "llava_onevision_7B": "Llava-OneVision-7B",
    "Llama_3_2_11B": "Llama-3.2-11B",
    "Phi-3.5-vision": "Phi-3.5-Vision",
    "MiniCPM_v2.6": "MiniCPM-V2.6",
    "Idefics3": "Idefics3-8B-Llama3",
    "Aquila_VL_2B": "Aquila-VL-2B-llava-qwen",
    "POINTS_7B": "POINTS-Qwen2.5-7B",
    "Qwen2_VL_2B": "Qwen2-VL-2B",
    "InternVL2_2B": "InternVL2-2B",
    "Molmo_7B_D": "Molmo-7B-D-0924",
    "Molmo_72B": "Molmo-72B-0924",
}

DIMENSION_NAME_MAP = {
    "skills": "Skills",
    "input_format": "Input Format",
    "output_format": "Output Format",
    "input_num": "Visual Input Number",
    "app": "Application"
}

KEYWORD_NAME_MAP = {
    # Skills
    "Object Recognition and Classification": "Object Recognition",
    "Text Recognition (OCR)": "OCR",
    "Language Understanding and Generation": "Language",
    "Scene and Event Understanding": "Scene/Event",
    "Mathematical and Logical Reasoning": "Math/Logic",
    "Commonsense and Social Reasoning": "Commonsense",
    "Ethical and Safety Reasoning": "Ethics/Safety",
    "Domain-Specific Knowledge and Skills": "Domain-Specific",
    "Spatial and Temporal Reasoning": "Spatial/Temporal",
    "Planning and Decision Making": "Planning/Decision",
    # Input Format
    'User Interface Screenshots': "UI related", 
    'Text-Based Images and Documents': "Documents", 
    'Diagrams and Data Visualizations': "Infographics", 
    'Videos': "Videos", 
    'Artistic and Creative Content': "Arts/Creative", 
    'Photographs': "Photographs", 
    '3D Models and Aerial Imagery': "3D related",
    # Application
    'Information_Extraction': "Info Extraction", 
    'Planning' : "Planning", 
    'Coding': "Coding", 
    'Perception': "Perception", 
    'Metrics': "Metrics", 
    'Science': "Science", 
    'Knowledge': "Knowledge", 
    'Mathematics': "Math",
    # Output format
    'contextual_formatted_text': "Contexual", 
    'structured_output': "Structured", 
    'exact_text': "Exact", 
    'numerical_data': "Numerical", 
    'open_ended_output': "Open-ended", 
    'multiple_choice': "MC",
    "6-8 images": "6-8 imgs",
    "1-image": "1 img",
    "2-3 images": "2-3 imgs",
    "4-5 images": "4-5 imgs",
    "9-image or more": "9+ imgs",
    "video": "Video",
}

class BaseDataLoader:
    # Define the base MODEL_GROUPS structure
    BASE_MODEL_GROUPS = {
        "All": list(MODEL_NAME_MAP.keys()),
        "Flagship Models": ['Claude_3.5_new', 'GPT_4o', 'Claude_3.5', 'Gemini_1.5_pro_002', 'Qwen2_VL_72B', 'InternVL2_76B', 'llava_onevision_72B', 'NVLM', 'Molmo_72B'],
        "Efficiency Models": ['Gemini_1.5_flash_002', 'GPT_4o_mini', 'Qwen2_VL_7B', 'Pixtral_12B', 'Aria', 'InternVL2_8B', 'Phi-3.5-vision', 'MiniCPM_v2.6', 'llava_onevision_7B', 'Llama_3_2_11B', 'Idefics3', 'Molmo_7B_D', "Aquila_VL_2B", "POINTS_7B", "Qwen2_VL_2B", "InternVL2_2B"],
        "Proprietary Flagship models": ['Claude_3.5_new', 'GPT_4o', 'Claude_3.5', 'Gemini_1.5_pro_002'],
        "Proprietary Efficiency Models": ['Gemini_1.5_flash_002', 'GPT_4o_mini'],
        "Open-source Flagship Models": ['Qwen2_VL_72B', 'InternVL2_76B', 'llava_onevision_72B', 'NVLM', "Molmo_72B"],
        "Open-source Efficiency Models": ['Qwen2_VL_7B', 'Pixtral_12B', 'Aria', 'InternVL2_8B', 'Phi-3.5-vision', 'MiniCPM_v2.6', 'llava_onevision_7B', 'Llama_3_2_11B', 'Idefics3', 'Molmo_7B_D', "Aquila_VL_2B", "POINTS_7B", "Qwen2_VL_2B", "InternVL2_2B",]
    }

    def __init__(self):
        self.MODEL_DATA = self._load_model_data()
        self.SUMMARY_DATA = self._load_summary_data()
        self.SUPER_GROUPS = self._initialize_super_groups()
        self.MODEL_GROUPS = self._initialize_model_groups()

    def _initialize_super_groups(self):
        # Define the desired order of super groups
        
        groups = {DIMENSION_NAME_MAP[dim]: [KEYWORD_NAME_MAP.get(k, k) for k in self.MODEL_DATA[next(iter(self.MODEL_DATA))][dim].keys()] 
                 for dim in self.MODEL_DATA[next(iter(self.MODEL_DATA))]}
        
        order = ["Skills", "Application", "Output Format", "Input Format", "Visual Input Number"]
        # Sort the dictionary based on the predefined order
        return {k: groups[k] for k in order if k in groups}

    def _initialize_model_groups(self) -> Dict[str, list]:
        # Get the list of available models from the loaded data
        available_models = set(self.MODEL_DATA.keys())
        
        # Create filtered groups based on available models
        filtered_groups = {}
        for group_name, models in self.BASE_MODEL_GROUPS.items():
            if group_name == "All":
                filtered_groups[group_name] = sorted(list(available_models))
            else:
                filtered_models = [model for model in models if model in available_models]
                if filtered_models:  # Only include group if it has models
                    filtered_groups[group_name] = filtered_models
        
        return filtered_groups

    def _load_model_data(self) -> Dict[str, Any]:
        raise NotImplementedError("Subclasses must implement _load_model_data")

    def _load_summary_data(self) -> Dict[str, Any]:
        raise NotImplementedError("Subclasses must implement _load_summary_data")

    def get_df(self, selected_super_group: str, selected_model_group: str) -> pd.DataFrame:
        raise NotImplementedError("Subclasses must implement get_df")

    def get_leaderboard_data(self, selected_super_group: str, selected_model_group: str) -> Tuple[list, list]:
        raise NotImplementedError("Subclasses must implement get_leaderboard_data")


class DefaultDataLoader(BaseDataLoader):
    def __init__(self):
        super().__init__()

    def _load_model_data(self) -> Dict[str, Any]:
        with open("./static/eval_results/Default/all_model_keywords_stats.json", "r") as f:
            return json.load(f)

    def _load_summary_data(self) -> Dict[str, Any]:
        with open("./static/eval_results/Default/all_summary.json", "r") as f:
            return json.load(f)

    def get_df(self, selected_super_group: str, selected_model_group: str) -> pd.DataFrame:
        original_dimension = get_original_dimension(selected_super_group)
        data = []
        for model in self.MODEL_GROUPS[selected_model_group]:
            model_data = self.MODEL_DATA[model]
            summary = self.SUMMARY_DATA[model]
            core_noncot_score = summary["core_noncot"]["macro_mean_score"]
            core_cot_score = summary["core_cot"]["macro_mean_score"]
            row = {
                "Models": get_display_model_name(model),
                "Overall": round(summary["overall_score"] * 100, 2),
                "Core(w/o CoT)": round(core_noncot_score * 100, 2),
                "Core(w/ CoT)": round(core_cot_score * 100, 2),
                "Open-ended": round(summary["open"]["macro_mean_score"] * 100, 2)
            }
            for keyword in self.SUPER_GROUPS[selected_super_group]:
                original_keyword = get_original_keyword(keyword)
                if original_dimension in model_data and original_keyword in model_data[original_dimension]:
                    row[keyword] = round(model_data[original_dimension][original_keyword]["average_score"] * 100, 2)
                else:
                    row[keyword] = None
            data.append(row)
        
        df = pd.DataFrame(data)
        df = df.sort_values(by="Overall", ascending=False)
        return df

    def get_leaderboard_data(self, selected_super_group: str, selected_model_group: str) -> Tuple[list, list]:
        df = self.get_df(selected_super_group, selected_model_group)
        headers = ["Models", "Overall", "Core(w/o CoT)", "Core(w/ CoT)", "Open-ended"] + self.SUPER_GROUPS[selected_super_group]
        data = df[headers].values.tolist()
        return headers, data


class CoreSingleDataLoader(BaseDataLoader):
    def __init__(self):
        super().__init__()

    def _load_model_data(self) -> Dict[str, Any]:
        with open("./static/eval_results/Core_SI/all_model_keywords_stats.json", "r") as f:
            return json.load(f)

    def _load_summary_data(self) -> Dict[str, Any]:
        with open("./static/eval_results/Core_SI/all_summary.json", "r") as f:
            return json.load(f)

    def get_df(self, selected_super_group: str, selected_model_group: str) -> pd.DataFrame:
        original_dimension = get_original_dimension(selected_super_group)
        data = []
        for model in self.MODEL_GROUPS[selected_model_group]:
            model_data = self.MODEL_DATA[model]
            summary = self.SUMMARY_DATA[model]
            core_si_score = summary["macro_mean_score"]
            row = {
                "Models": get_display_model_name(model),
                "Core SI": round(core_si_score * 100, 2),
            }
            for keyword in self.SUPER_GROUPS[selected_super_group]:
                original_keyword = get_original_keyword(keyword)
                if original_dimension in model_data and original_keyword in model_data[original_dimension]:
                    row[keyword] = round(model_data[original_dimension][original_keyword]["average_score"] * 100, 2)
                else:
                    row[keyword] = None
            data.append(row)
        
        df = pd.DataFrame(data)
        df = df.sort_values(by="Core SI", ascending=False)
        return df

    def get_leaderboard_data(self, selected_super_group: str, selected_model_group: str) -> Tuple[list, list]:
        df = self.get_df(selected_super_group, selected_model_group)
        headers = ["Models", "Core SI"] + self.SUPER_GROUPS[selected_super_group]
        data = df[headers].values.tolist()
        return headers, data


# Keep your helper functions
def get_original_dimension(mapped_dimension):
    return next(k for k, v in DIMENSION_NAME_MAP.items() if v == mapped_dimension)

def get_original_keyword(mapped_keyword):
    return next((k for k, v in KEYWORD_NAME_MAP.items() if v == mapped_keyword), mapped_keyword)

def get_display_model_name(model_name):
    return MODEL_NAME_MAP.get(model_name, model_name)