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import os
import re
import json
import time
import traceback
from pathlib import Path
from typing import Dict, Any, List, Optional, Tuple

import pandas as pd
import gradio as gr
import papermill as pm

# Optional LLM (HuggingFace Inference API)
try:
    from huggingface_hub import InferenceClient
except Exception:
    InferenceClient = None

# =========================================================
# CONFIG
# =========================================================

BASE_DIR = Path(__file__).resolve().parent

NB1 = os.environ.get("NB1", "pythonanalysis.ipynb").strip()
NB2 = os.environ.get("NB2", "ranalysis.ipynb").strip()

RUNS_DIR = BASE_DIR / "runs"
ART_DIR = BASE_DIR / "artifacts"
PY_FIG_DIR = ART_DIR / "py" / "figures"
PY_TAB_DIR = ART_DIR / "py" / "tables"
R_FIG_DIR = ART_DIR / "r" / "figures"
R_TAB_DIR = ART_DIR / "r" / "tables"

PAPERMILL_TIMEOUT = int(os.environ.get("PAPERMILL_TIMEOUT", "1800"))
MAX_PREVIEW_ROWS = int(os.environ.get("MAX_FILE_PREVIEW_ROWS", "50"))
MAX_LOG_CHARS = int(os.environ.get("MAX_LOG_CHARS", "8000"))

HF_API_KEY = os.environ.get("HF_API_KEY", "").strip()
MODEL_NAME = os.environ.get("MODEL_NAME", "deepseek-ai/DeepSeek-R1").strip()
HF_PROVIDER = os.environ.get("HF_PROVIDER", "novita").strip()

LLM_ENABLED = bool(HF_API_KEY) and InferenceClient is not None
llm_client = (
    InferenceClient(provider=HF_PROVIDER, api_key=HF_API_KEY)
    if LLM_ENABLED
    else None
)

# =========================================================
# HELPERS
# =========================================================

def ensure_dirs():
    for p in [RUNS_DIR, ART_DIR, PY_FIG_DIR, PY_TAB_DIR, R_FIG_DIR, R_TAB_DIR]:
        p.mkdir(parents=True, exist_ok=True)

def stamp():
    return time.strftime("%Y%m%d-%H%M%S")

def tail(text: str, n: int = MAX_LOG_CHARS) -> str:
    return (text or "")[-n:]

def _ls(dir_path: Path, exts: Tuple[str, ...]) -> List[str]:
    if not dir_path.is_dir():
        return []
    return sorted(p.name for p in dir_path.iterdir() if p.is_file() and p.suffix.lower() in exts)

def _read_csv(path: Path) -> pd.DataFrame:
    return pd.read_csv(path, nrows=MAX_PREVIEW_ROWS)

def _read_json(path: Path):
    with path.open(encoding="utf-8") as f:
        return json.load(f)

def artifacts_index() -> Dict[str, Any]:
    return {
        "python": {
            "figures": _ls(PY_FIG_DIR, (".png", ".jpg", ".jpeg")),
            "tables": _ls(PY_TAB_DIR, (".csv", ".json")),
        },
        "r": {
            "figures": _ls(R_FIG_DIR, (".png", ".jpg", ".jpeg")),
            "tables": _ls(R_TAB_DIR, (".csv", ".json")),
        },
    }

# =========================================================
# PIPELINE RUNNERS
# =========================================================

def run_notebook(nb_name: str) -> str:
    ensure_dirs()
    nb_in = BASE_DIR / nb_name
    if not nb_in.exists():
        return f"ERROR: {nb_name} not found."

    nb_out = RUNS_DIR / f"run_{stamp()}_{nb_name}"

    pm.execute_notebook(
        input_path=str(nb_in),
        output_path=str(nb_out),
        cwd=str(BASE_DIR),
        log_output=True,
        progress_bar=False,
        request_save_on_cell_execute=True,
        execution_timeout=PAPERMILL_TIMEOUT,
    )

    return f"Executed {nb_name}"


def run_pythonanalysis() -> str:
    try:
        log = run_notebook(NB1)
        idx = artifacts_index()
        figs = idx["python"]["figures"]
        tabs = idx["python"]["tables"]
        return (
            f"OK  {log}\n\n"
            f"Figures: {', '.join(figs) or '(none)'}\n"
            f"Tables:  {', '.join(tabs) or '(none)'}"
        )
    except Exception as e:
        return f"FAILED  {e}\n\n{traceback.format_exc()[-2000:]}"

def run_ranalysis() -> str:
    try:
        log = run_notebook(NB2)
        idx = artifacts_index()
        figs = idx["r"]["figures"]
        tabs = idx["r"]["tables"]
        return (
            f"OK  {log}\n\n"
            f"Figures: {', '.join(figs) or '(none)'}\n"
            f"Tables:  {', '.join(tabs) or '(none)'}"
        )
    except Exception as e:
        return f"FAILED  {e}\n\n{traceback.format_exc()[-2000:]}"


def run_full_pipeline() -> str:
    logs = []
    logs.append("=" * 50)
    logs.append("STEP 1/2: Python Analysis")
    logs.append("=" * 50)
    logs.append(run_pythonanalysis())
    logs.append("")
    logs.append("=" * 50)
    logs.append("STEP 2/2: R Analysis")
    logs.append("=" * 50)
    logs.append(run_ranalysis())
    return "\n".join(logs)


# =========================================================
# GALLERY LOADERS
# =========================================================

def _load_all_figures() -> List[Tuple[str, str]]:
    """Return list of (filepath, caption) for Gallery."""
    items = []
    for p in sorted(PY_FIG_DIR.glob("*.png")):
        items.append((str(p), f"Python | {p.stem.replace('_', ' ').title()}"))
    for p in sorted(R_FIG_DIR.glob("*.png")):
        items.append((str(p), f"R | {p.stem.replace('_', ' ').title()}"))
    return items


def _load_table_safe(path: Path) -> pd.DataFrame:
    try:
        if path.suffix == ".json":
            obj = _read_json(path)
            if isinstance(obj, dict):
                return pd.DataFrame([obj])
            return pd.DataFrame(obj)
        return _read_csv(path)
    except Exception as e:
        return pd.DataFrame([{"error": str(e)}])


def refresh_gallery():
    """Called when user clicks Refresh on Gallery tab."""
    figures = _load_all_figures()
    idx = artifacts_index()

    # Build table choices
    table_choices = []
    for scope in ("python", "r"):
        for name in idx[scope]["tables"]:
            table_choices.append(f"{scope}/{name}")

    # Default: show first table if available
    default_df = pd.DataFrame()
    if table_choices:
        parts = table_choices[0].split("/", 1)
        base = PY_TAB_DIR if parts[0] == "python" else R_TAB_DIR
        default_df = _load_table_safe(base / parts[1])

    return (
        figures if figures else [],
        gr.update(choices=table_choices, value=table_choices[0] if table_choices else None),
        default_df,
    )


def on_table_select(choice: str):
    if not choice or "/" not in choice:
        return pd.DataFrame([{"hint": "Select a table above."}])
    scope, name = choice.split("/", 1)
    base = {"python": PY_TAB_DIR, "r": R_TAB_DIR}.get(scope)
    if not base:
        return pd.DataFrame([{"error": f"Unknown scope: {scope}"}])
    path = base / name
    if not path.exists():
        return pd.DataFrame([{"error": f"File not found: {path}"}])
    return _load_table_safe(path)


# =========================================================
# KPI LOADER
# =========================================================

def load_kpis() -> Dict[str, Any]:
    for candidate in [PY_TAB_DIR / "kpis.json", PY_FIG_DIR / "kpis.json"]:
        if candidate.exists():
            try:
                return _read_json(candidate)
            except Exception:
                pass
    return {}


# =========================================================
# AI DASHBOARD (Tab 3) -- LLM picks what to display
# =========================================================

DASHBOARD_SYSTEM = """You are an AI dashboard assistant for a book-sales analytics app.
The user asks questions or requests about their data. You have access to pre-computed
artifacts from Python and R analysis pipelines.

AVAILABLE ARTIFACTS (only reference ones that exist):
{artifacts_json}

KPI SUMMARY: {kpis_json}

YOUR JOB:
1. Answer the user's question conversationally using the KPIs and your knowledge of the artifacts.
2. At the END of your response, output a JSON block (fenced with ```json ... ```) that tells
   the dashboard which artifact to display. The JSON must have this shape:
   {{"show": "figure"|"table"|"none", "scope": "python"|"r", "filename": "..."}}

   - Use "show": "figure" to display a chart image.
   - Use "show": "table" to display a CSV/JSON table.
   - Use "show": "none" if no artifact is relevant.

RULES:
- If the user asks about sales trends or forecasting by title, show sales_trends or arima figures.
- If the user asks about sentiment, show sentiment figure or sentiment_counts table.
- If the user asks about R regression, the R notebook focuses on forecasting, show accuracy_table.csv.
- If the user asks about forecast accuracy or model comparison, show accuracy_table.csv or forecast_compare.png.
- If the user asks about top sellers, show top_titles_by_units_sold.csv.
- If the user asks a general data question, pick the most relevant artifact.
- Keep your answer concise (2-4 sentences), then the JSON block.
"""

JSON_BLOCK_RE = re.compile(r"```json\s*(\{.*?\})\s*```", re.DOTALL)
FALLBACK_JSON_RE = re.compile(r"\{[^{}]*\"show\"[^{}]*\}", re.DOTALL)


def _parse_display_directive(text: str) -> Dict[str, str]:
    m = JSON_BLOCK_RE.search(text)
    if m:
        try:
            return json.loads(m.group(1))
        except json.JSONDecodeError:
            pass
    m = FALLBACK_JSON_RE.search(text)
    if m:
        try:
            return json.loads(m.group(0))
        except json.JSONDecodeError:
            pass
    return {"show": "none"}


def _clean_response(text: str) -> str:
    """Strip the JSON directive block from the displayed response."""
    return JSON_BLOCK_RE.sub("", text).strip()


def ai_chat(user_msg: str, history: list):
    """Chat function for the AI Dashboard tab."""
    if not user_msg or not user_msg.strip():
        return history, "", None, None

    idx = artifacts_index()
    kpis = load_kpis()

    if not LLM_ENABLED:
        reply, directive = _keyword_fallback(user_msg, idx, kpis)
    else:
        system = DASHBOARD_SYSTEM.format(
            artifacts_json=json.dumps(idx, indent=2),
            kpis_json=json.dumps(kpis, indent=2) if kpis else "(no KPIs yet, run the pipeline first)",
        )
        msgs = [{"role": "system", "content": system}]
        for entry in (history or [])[-6:]:
            msgs.append(entry)
        msgs.append({"role": "user", "content": user_msg})

        try:
            r = llm_client.chat_completion(
                model=MODEL_NAME,
                messages=msgs,
                temperature=0.3,
                max_tokens=600,
                stream=False,
            )
            raw = (
                r["choices"][0]["message"]["content"]
                if isinstance(r, dict)
                else r.choices[0].message.content
            )
            directive = _parse_display_directive(raw)
            reply = _clean_response(raw)
        except Exception as e:
            reply = f"LLM error: {e}. Falling back to keyword matching."
            reply_fb, directive = _keyword_fallback(user_msg, idx, kpis)
            reply += "\n\n" + reply_fb

    # Resolve artifact paths
    fig_out = None
    tab_out = None
    show = directive.get("show", "none")
    scope = directive.get("scope", "")
    fname = directive.get("filename", "")

    if show == "figure" and scope and fname:
        base = {"python": PY_FIG_DIR, "r": R_FIG_DIR}.get(scope)
        if base and (base / fname).exists():
            fig_out = str(base / fname)
        else:
            reply += f"\n\n*(Could not find figure: {scope}/{fname})*"

    if show == "table" and scope and fname:
        base = {"python": PY_TAB_DIR, "r": R_TAB_DIR}.get(scope)
        if base and (base / fname).exists():
            tab_out = _load_table_safe(base / fname)
        else:
            reply += f"\n\n*(Could not find table: {scope}/{fname})*"

    new_history = (history or []) + [
        {"role": "user", "content": user_msg},
        {"role": "assistant", "content": reply},
    ]

    return new_history, "", fig_out, tab_out


def _keyword_fallback(msg: str, idx: Dict, kpis: Dict) -> Tuple[str, Dict]:
    """Simple keyword matcher when LLM is unavailable."""
    msg_lower = msg.lower()

    if not any(idx[s]["figures"] or idx[s]["tables"] for s in ("python", "r")):
        return (
            "No artifacts found yet. Please run the pipeline first (Tab 1), "
            "then come back here to explore the results.",
            {"show": "none"},
        )

    kpi_text = ""
    if kpis:
        total = kpis.get("total_units_sold", 0)
        kpi_text = (
            f"Quick summary: **{kpis.get('n_titles', '?')}** book titles across "
            f"**{kpis.get('n_months', '?')}** months, with **{total:,.0f}** total units sold."
        )

    if any(w in msg_lower for w in ["trend", "sales trend", "monthly sale"]):
        return (
            f"Here are the sales trends for sampled titles. {kpi_text}",
            {"show": "figure", "scope": "python", "filename": "sales_trends_sampled_titles.png"},
        )

    if any(w in msg_lower for w in ["sentiment", "review", "positive", "negative"]):
        return (
            f"Here is the sentiment distribution across sampled book titles. {kpi_text}",
            {"show": "figure", "scope": "python", "filename": "sentiment_distribution_sampled_titles.png"},
        )

    if any(w in msg_lower for w in ["arima", "forecast", "predict"]):
        if "compar" in msg_lower or "ets" in msg_lower or "accuracy" in msg_lower:
            if "forecast_compare.png" in idx.get("r", {}).get("figures", []):
                return (
                    "Here is the ARIMA+Fourier vs ETS forecast comparison from the R analysis.",
                    {"show": "figure", "scope": "r", "filename": "forecast_compare.png"},
                )
        return (
            f"Here are the ARIMA forecasts for sampled titles from the Python analysis. {kpi_text}",
            {"show": "figure", "scope": "python", "filename": "arima_forecasts_sampled_titles.png"},
        )

    if any(w in msg_lower for w in ["regression", "lm", "coefficient", "price effect", "rating effect"]):
        return (
            "The R notebook focuses on forecasting rather than regression. "
            "Here is the forecast accuracy comparison instead.",
            {"show": "table", "scope": "r", "filename": "accuracy_table.csv"},
        )

    if any(w in msg_lower for w in ["top", "best sell", "popular", "rank"]):
        return (
            f"Here are the top-selling titles by units sold. {kpi_text}",
            {"show": "table", "scope": "python", "filename": "top_titles_by_units_sold.csv"},
        )

    if any(w in msg_lower for w in ["accuracy", "benchmark", "rmse", "mape"]):
        return (
            "Here is the forecast accuracy comparison (ARIMA+Fourier vs ETS) from the R analysis.",
            {"show": "table", "scope": "r", "filename": "accuracy_table.csv"},
        )

    if any(w in msg_lower for w in ["r analysis", "r output", "r result"]):
        if "forecast_compare.png" in idx.get("r", {}).get("figures", []):
            return (
                "Here is the main R output: forecast model comparison plot.",
                {"show": "figure", "scope": "r", "filename": "forecast_compare.png"},
            )

    if any(w in msg_lower for w in ["dashboard", "overview", "summary", "kpi"]):
        return (
            f"Dashboard overview: {kpi_text}\n\nAsk me about sales trends, sentiment, forecasts, "
            "forecast accuracy, or top sellers to see specific visualizations.",
            {"show": "table", "scope": "python", "filename": "df_dashboard.csv"},
        )

    # Default
    return (
        f"I can show you various analyses. {kpi_text}\n\n"
        "Try asking about: **sales trends**, **sentiment**, **ARIMA forecasts**, "
        "**forecast accuracy**, **top sellers**, or **dashboard overview**.",
        {"show": "none"},
    )


# =========================================================
# UI
# =========================================================

ensure_dirs()

def load_css() -> str:
    css_path = BASE_DIR / "style.css"
    return css_path.read_text(encoding="utf-8") if css_path.exists() else ""


with gr.Blocks(title="RX12 Workshop App") as demo:

    gr.Markdown(
        "# RX12 - Intro to Python and R - Workshop App\n"
        "*The app to integrate the three notebooks in to get a functioning blueprint of the group project's final product*",
        elem_id="escp_title",
    )

    # ===========================================================
    # TAB 1 -- Pipeline Runner
    # ===========================================================
    with gr.Tab("Pipeline Runner"):
        gr.Markdown(
        )

        with gr.Row():
            with gr.Column(scale=1):
                btn_nb1 = gr.Button(
                    "Step 1: Python Analysis",
                    variant="secondary",
                )
                gr.Markdown(
                )
            with gr.Column(scale=1):
                btn_nb2 = gr.Button(
                    "Step 2: R Analysis",
                    variant="secondary",
                )
                gr.Markdown(
                )

        with gr.Row():
            btn_all = gr.Button(
                "Run All 2 Steps",
                variant="primary",
            )

        run_log = gr.Textbox(
            label="Execution Log",
            lines=18,
            max_lines=30,
            interactive=False,
        )

        btn_nb1.click(run_pythonanalysis, outputs=[run_log])
        btn_nb2.click(run_ranalysis, outputs=[run_log])
        btn_all.click(run_full_pipeline, outputs=[run_log])

    # ===========================================================
    # TAB 2 -- Results Gallery
    # ===========================================================
    with gr.Tab("Results Gallery"):
        gr.Markdown(
            "### All generated artifacts\n\n"
            "After running the pipeline, click **Refresh** to load all figures and tables. "
            "Figures are shown in the gallery; select a table from the dropdown to inspect it."
        )

        refresh_btn = gr.Button("Refresh Gallery", variant="primary")

        gr.Markdown("#### Figures")
        gallery = gr.Gallery(
            label="All Figures (Python + R)",
            columns=2,
            height=480,
            object_fit="contain",
        )

        gr.Markdown("#### Tables")
        table_dropdown = gr.Dropdown(
            label="Select a table to view",
            choices=[],
            interactive=True,
        )
        table_display = gr.Dataframe(
            label="Table Preview",
            interactive=False,
        )

        refresh_btn.click(
            refresh_gallery,
            outputs=[gallery, table_dropdown, table_display],
        )
        table_dropdown.change(
            on_table_select,
            inputs=[table_dropdown],
            outputs=[table_display],
        )

    # ===========================================================
    # TAB 3 -- AI Dashboard
    # ===========================================================
    with gr.Tab('"AI" Dashboard'):
        gr.Markdown(
            "### Ask questions, get visualisations\n\n"
            "Describe what you want to see and the AI will pick the right chart or table. "
            + (
                "*LLM is active.*"
                if LLM_ENABLED
                else "*No API key detected \u2014 using keyword matching. "
                     "Set `HF_API_KEY` in Space secrets for full LLM support.*"
            )
        )

        with gr.Row(equal_height=True):
            with gr.Column(scale=1):
                chatbot = gr.Chatbot(
                    label="Conversation",
                    height=380,
                )
                user_input = gr.Textbox(
                    label="Ask about your data",
                    placeholder="e.g. Show me sales trends / What drives revenue? / Compare forecast models",
                    lines=1,
                )
                gr.Examples(
                    examples=[
                        "Show me the sales trends",
                        "What does the sentiment look like?",
                        "Which titles sell the most?",
                        "Show the forecast accuracy comparison",
                        "Compare the ARIMA and ETS forecasts",
                        "Give me a dashboard overview",
                    ],
                    inputs=user_input,
                )

            with gr.Column(scale=1):
                ai_figure = gr.Image(
                    label="Visualisation",
                    height=350,
                )
                ai_table = gr.Dataframe(
                    label="Data Table",
                    interactive=False,
                )

        user_input.submit(
            ai_chat,
            inputs=[user_input, chatbot],
            outputs=[chatbot, user_input, ai_figure, ai_table],
        )


PORT = int(os.environ.get("PORT", os.environ.get("GRADIO_SERVER_PORT", "7860")))

demo.launch(
    server_name="0.0.0.0",
    server_port=PORT,
    css=load_css(),
    allowed_paths=[str(BASE_DIR)],
)