ware_house/view_celle_multiple.py

"""Exploration window for cells containing more than one pallet."""

import json
import tkinter as tk
from datetime import datetime
from tkinter import filedialog, messagebox, ttk

import customtkinter as ctk
from openpyxl import Workbook
from openpyxl.styles import Alignment, Font

from gestione_aree_frame_async import AsyncRunner


def _json_obj(res):
    """Normalize raw DB responses into a dictionary with a ``rows`` key."""
    if isinstance(res, str):
        try:
            res = json.loads(res)
        except Exception as ex:
            raise RuntimeError(f"Risposta non JSON: {ex}\nRaw: {res!r}")
    if isinstance(res, dict) and "error" in res:
        err = res.get("error") or "Errore sconosciuto"
        detail = res.get("sql") or ""
        raise RuntimeError(f"{err}\n{detail}")
    return res if isinstance(res, dict) else {"rows": res}


UBI_B = (
    "UPPER("
    "  CONCAT("
    "    RTRIM(b.Corsia), '.', RTRIM(CAST(b.Colonna AS varchar(32))), '.', RTRIM(CAST(b.Fila AS varchar(32)))"
    "  )"
    ")"
)

BASE_CTE = """
WITH base AS (
  SELECT
    g.IDCella,
    g.BarcodePallet,
    RTRIM(c.Corsia) AS Corsia,
    c.Colonna,
    c.Fila
  FROM dbo.XMag_GiacenzaPallet AS g
  JOIN dbo.Celle AS c ON c.ID = g.IDCella
  WHERE g.IDCella <> 9999 AND RTRIM(c.Corsia) <> '7G'
)
"""

SQL_CORSIE = BASE_CTE + """
, dup_celle AS (
  SELECT IDCCella = b.IDCella
  FROM base b
  GROUP BY b.IDCella
  HAVING COUNT(DISTINCT b.BarcodePallet) > 1
)
SELECT DISTINCT b.Corsia
FROM base b
WHERE EXISTS (SELECT 1 FROM dup_celle d WHERE d.IDCCella = b.IDCella)
ORDER BY b.Corsia;
"""

SQL_CELLE_DUP_PER_CORSIA = BASE_CTE + f"""
, dup_celle AS (
  SELECT b.IDCella, COUNT(DISTINCT b.BarcodePallet) AS NumUDC
  FROM base b
  GROUP BY b.IDCella
  HAVING COUNT(DISTINCT b.BarcodePallet) > 1
)
SELECT dc.IDCella,
       {UBI_B} AS Ubicazione,
       b.Colonna, b.Fila, b.Corsia,
       dc.NumUDC
FROM dup_celle dc
JOIN base b ON b.IDCella = dc.IDCella
WHERE b.Corsia = RTRIM(:corsia)
GROUP BY dc.IDCella, {UBI_B}, b.Colonna, b.Fila, b.Corsia, dc.NumUDC
ORDER BY b.Colonna, b.Fila;
"""

SQL_PALLET_IN_CELLA = BASE_CTE + """
SELECT
  b.BarcodePallet AS Pallet,
  ta.Descrizione,
  ta.Lotto
FROM base b
OUTER APPLY (
  SELECT TOP (1) t.Descrizione, t.Lotto
  FROM dbo.vXTracciaProdotti AS t
  WHERE t.Pallet = b.BarcodePallet COLLATE Latin1_General_CI_AS
  ORDER BY t.Lotto
) AS ta
WHERE b.IDCella = :idcella
GROUP BY b.BarcodePallet, ta.Descrizione, ta.Lotto
ORDER BY b.BarcodePallet;
"""

SQL_RIEPILOGO_PERCENTUALI = BASE_CTE + """
, tot AS (
  SELECT b.Corsia, COUNT(DISTINCT b.IDCella) AS TotCelle
  FROM base b GROUP BY b.Corsia
),
dup_celle AS (
  SELECT b.Corsia, b.IDCella
  FROM base b
  GROUP BY b.Corsia, b.IDCella
  HAVING COUNT(DISTINCT b.BarcodePallet) > 1
),
per_corsia AS (
  SELECT t.Corsia, t.TotCelle, COALESCE(d.CelleMultiple, 0) AS CelleMultiple
  FROM tot t
  LEFT JOIN (
     SELECT Corsia, COUNT(IDCella) AS CelleMultiple
     FROM dup_celle GROUP BY Corsia
  ) d ON d.Corsia = t.Corsia
),
unione AS (
  SELECT Corsia, TotCelle, CelleMultiple,
         CAST(100.0 * CelleMultiple / NULLIF(TotCelle, 0) AS decimal(5,2)) AS Percentuale,
         CAST(0 AS int) AS Ord
  FROM per_corsia
  UNION ALL
  SELECT 'TOTALE' AS Corsia,
         SUM(TotCelle), SUM(CelleMultiple),
         CAST(100.0 * SUM(CelleMultiple) / NULLIF(SUM(TotCelle), 0) AS decimal(5,2)),
         CAST(1 AS int) AS Ord
  FROM per_corsia
)
SELECT Corsia, TotCelle, CelleMultiple, Percentuale
FROM unione
ORDER BY Ord, Corsia;
"""


class CelleMultipleWindow(ctk.CTkToplevel):
    """Tree-based explorer for duplicated pallet allocations."""

    def __init__(self, root, db_client, runner: AsyncRunner | None = None):
        """Bind the shared DB client and immediately load the tree summary."""
        super().__init__(root)
        self.title("Celle con piu' pallet")
        self.geometry("1100x700")
        self.minsize(900, 550)
        self.resizable(True, True)

        self.db = db_client
        self.runner = runner or AsyncRunner(self)

        self._build_layout()
        self._bind_events()
        self.refresh_all()

    def _build_layout(self):
        """Create the toolbar, lazy-loaded tree and percentage summary table."""
        self.grid_rowconfigure(0, weight=5)
        self.grid_rowconfigure(1, weight=70)
        self.grid_rowconfigure(2, weight=25, minsize=160)
        self.grid_columnconfigure(0, weight=1)

        toolbar = ctk.CTkFrame(self)
        toolbar.grid(row=0, column=0, sticky="nsew")
        ctk.CTkButton(toolbar, text="Aggiorna", command=self.refresh_all).pack(side="left", padx=6, pady=4)
        ctk.CTkButton(toolbar, text="Espandi tutto", command=self.expand_all).pack(side="left", padx=6, pady=4)
        ctk.CTkButton(toolbar, text="Comprimi tutto", command=self.collapse_all).pack(side="left", padx=6, pady=4)
        ctk.CTkButton(toolbar, text="Esporta in XLSX", command=self.export_to_xlsx).pack(side="left", padx=6, pady=4)

        frame = ctk.CTkFrame(self)
        frame.grid(row=1, column=0, sticky="nsew", padx=6, pady=(0, 6))
        frame.grid_rowconfigure(0, weight=1)
        frame.grid_columnconfigure(0, weight=1)
        self.tree = ttk.Treeview(frame, columns=("col2", "col3"), show="tree headings", selectmode="browse")
        self.tree.heading("#0", text="Nodo")
        self.tree.heading("col2", text="Descrizione")
        self.tree.heading("col3", text="Lotto")
        y = ttk.Scrollbar(frame, orient="vertical", command=self.tree.yview)
        x = ttk.Scrollbar(frame, orient="horizontal", command=self.tree.xview)
        self.tree.configure(yscrollcommand=y.set, xscrollcommand=x.set)
        self.tree.grid(row=0, column=0, sticky="nsew")
        y.grid(row=0, column=1, sticky="ns")
        x.grid(row=1, column=0, sticky="ew")

        sumf = ctk.CTkFrame(self)
        sumf.grid(row=2, column=0, sticky="nsew", padx=6, pady=(0, 6))
        ctk.CTkLabel(sumf, text="Riepilogo % celle multiple per corsia", font=("Segoe UI", 12, "bold")).pack(anchor="w", padx=8, pady=(8, 0))
        inner = ctk.CTkFrame(sumf)
        inner.pack(fill="both", expand=True, padx=6, pady=6)
        inner.grid_rowconfigure(0, weight=1)
        inner.grid_columnconfigure(0, weight=1)
        self.sum_tbl = ttk.Treeview(inner, columns=("Corsia", "TotCelle", "CelleMultiple", "Percentuale"), show="headings")
        for key, title, width, anchor in (
            ("Corsia", "Corsia", 100, "center"),
            ("TotCelle", "Totale celle", 120, "e"),
            ("CelleMultiple", ">1 UDC", 120, "e"),
            ("Percentuale", "%", 80, "e"),
        ):
            self.sum_tbl.heading(key, text=title)
            self.sum_tbl.column(key, width=width, anchor=anchor)
        y2 = ttk.Scrollbar(inner, orient="vertical", command=self.sum_tbl.yview)
        x2 = ttk.Scrollbar(inner, orient="horizontal", command=self.sum_tbl.xview)
        self.sum_tbl.configure(yscrollcommand=y2.set, xscrollcommand=x2.set)
        self.sum_tbl.grid(row=0, column=0, sticky="nsew")
        y2.grid(row=0, column=1, sticky="ns")
        x2.grid(row=1, column=0, sticky="ew")

    def _bind_events(self):
        """Attach lazy-load behavior when nodes are expanded."""
        self.tree.bind("<<TreeviewOpen>>", self._on_open_node)

    def refresh_all(self):
        """Reload both the duplication tree and the summary percentage table."""
        self._load_corsie()
        self._load_riepilogo()

    def _load_corsie(self):
        """Load root nodes representing aisles with duplicated cells."""
        self.tree.delete(*self.tree.get_children())

        async def _q(db):
            return await db.query_json(SQL_CORSIE, as_dict_rows=True)

        self.runner.run(_q(self.db), self._fill_corsie, lambda e: messagebox.showerror("Errore", str(e), parent=self))

    def _fill_corsie(self, res):
        """Populate root tree nodes after the aisle query completes."""
        rows = _json_obj(res).get("rows", [])
        for row in rows:
            corsia = row.get("Corsia")
            if not corsia:
                continue
            node_id = f"corsia:{corsia}"
            self.tree.insert("", "end", iid=node_id, text=f"Corsia {corsia}", values=("", ""), open=False, tags=("corsia",))
            self.tree.insert(node_id, "end", iid=f"{node_id}::lazy", text="...", values=("", ""))

    def _on_open_node(self, _evt):
        """Lazy-load children when a tree node is expanded."""
        sel = self.tree.focus()
        if not sel:
            return
        if sel.startswith("corsia:"):
            lazy_id = f"{sel}::lazy"
            if lazy_id in self.tree.get_children(sel):
                self.tree.delete(lazy_id)
                corsia = sel.split(":", 1)[1]
                self._load_celle_for_corsia(sel, corsia)
        elif sel.startswith("cella:"):
            lazy_id = f"{sel}::lazy"
            if lazy_id in self.tree.get_children(sel):
                self.tree.delete(lazy_id)
                idcella = int(sel.split(":", 1)[1])
                for child in self.tree.get_children(sel):
                    self.tree.delete(child)
                self._load_pallet_for_cella(sel, idcella)

    def _load_celle_for_corsia(self, parent_iid, corsia):
        """Query duplicated cells for the selected aisle."""
        async def _q(db):
            return await db.query_json(SQL_CELLE_DUP_PER_CORSIA, params={"corsia": corsia}, as_dict_rows=True)

        self.runner.run(_q(self.db), lambda res: self._fill_celle(parent_iid, res), lambda e: messagebox.showerror("Errore", str(e), parent=self))

    def _fill_celle(self, parent_iid, res):
        """Populate duplicated-cell nodes under an aisle node."""
        rows = _json_obj(res).get("rows", [])
        if not rows:
            self.tree.insert(parent_iid, "end", text="(nessuna cella con >1 UDC)", values=("", ""))
            return
        for row in rows:
            idc = row["IDCella"]
            ubi = row["Ubicazione"]
            corsia = row.get("Corsia")
            num = row.get("NumUDC", 0)
            node_id = f"cella:{idc}"
            label = f"{ubi}  [x{num}]"
            if self.tree.exists(node_id):
                self.tree.item(node_id, text=label, values=(f"IDCella {idc}", ""))
            else:
                self.tree.insert(parent_iid, "end", iid=node_id, text=label, values=(f"IDCella {idc}", ""), open=False, tags=("cella", f"corsia:{corsia}"))
            if not any(child.endswith("::lazy") for child in self.tree.get_children(node_id)):
                self.tree.insert(node_id, "end", iid=f"{node_id}::lazy", text="...", values=("", ""))

    def _load_pallet_for_cella(self, parent_iid, idcella: int):
        """Query pallet details for a duplicated cell."""
        async def _q(db):
            return await db.query_json(SQL_PALLET_IN_CELLA, params={"idcella": idcella}, as_dict_rows=True)

        self.runner.run(_q(self.db), lambda res: self._fill_pallet(parent_iid, res), lambda e: messagebox.showerror("Errore", str(e), parent=self))

    def _fill_pallet(self, parent_iid, res):
        """Add pallet leaves under the selected cell node."""
        rows = _json_obj(res).get("rows", [])
        if not rows:
            self.tree.insert(parent_iid, "end", text="(nessun pallet)", values=("", ""))
            return
        parent_tags = self.tree.item(parent_iid, "tags") or ()
        corsia_tag = next((tag for tag in parent_tags if tag.startswith("corsia:")), None)
        corsia_val = corsia_tag.split(":", 1)[1] if corsia_tag else ""
        cella_ubi = self.tree.item(parent_iid, "text")
        idcella_txt = self.tree.item(parent_iid, "values")[0]
        idcella_num = int(idcella_txt.split()[-1]) if idcella_txt else None

        for row in rows:
            pallet = row.get("Pallet", "")
            desc = row.get("Descrizione", "")
            lotto = row.get("Lotto", "")
            leaf_id = f"pallet:{idcella_num}:{pallet}"
            if self.tree.exists(leaf_id):
                self.tree.item(leaf_id, text=str(pallet), values=(desc, lotto))
                continue
            self.tree.insert(
                parent_iid,
                "end",
                iid=leaf_id,
                text=str(pallet),
                values=(desc, lotto),
                tags=("pallet", f"corsia:{corsia_val}", f"ubicazione:{cella_ubi}", f"idcella:{idcella_num}"),
            )

    def _load_riepilogo(self):
        """Load the percentage summary by aisle."""
        async def _q(db):
            return await db.query_json(SQL_RIEPILOGO_PERCENTUALI, as_dict_rows=True)

        self.runner.run(_q(self.db), self._fill_riepilogo, lambda e: messagebox.showerror("Errore", str(e), parent=self))

    def _fill_riepilogo(self, res):
        """Refresh the bottom summary table."""
        rows = _json_obj(res).get("rows", [])
        for item in self.sum_tbl.get_children():
            self.sum_tbl.delete(item)
        for row in rows:
            self.sum_tbl.insert(
                "",
                "end",
                values=(row.get("Corsia"), row.get("TotCelle", 0), row.get("CelleMultiple", 0), f"{row.get('Percentuale', 0):.2f}"),
            )

    def expand_all(self):
        """Expand all aisle roots and trigger lazy loading where needed."""
        for iid in self.tree.get_children(""):
            self.tree.item(iid, open=True)
            if f"{iid}::lazy" in self.tree.get_children(iid):
                self.tree.delete(f"{iid}::lazy")
                corsia = iid.split(":", 1)[1]
                self._load_celle_for_corsia(iid, corsia)

    def collapse_all(self):
        """Collapse all root nodes in the duplication tree."""
        for iid in self.tree.get_children(""):
            self.tree.item(iid, open=False)

    def export_to_xlsx(self):
        """Export both the detailed tree and the summary table to Excel."""
        ts = datetime.now().strftime("%d_%m_%Y_%H-%M")
        default_name = f"esportazione_celle_udc_multiple_{ts}.xlsx"
        fname = filedialog.asksaveasfilename(
            parent=self,
            title="Esporta in Excel",
            defaultextension=".xlsx",
            filetypes=[("Excel Workbook", "*.xlsx")],
            initialfile=default_name,
        )
        if not fname:
            return
        try:
            wb = Workbook()
            ws_det = wb.active
            ws_det.title = "Dettaglio"
            ws_sum = wb.create_sheet("Riepilogo")
            det_headers = ["Corsia", "Ubicazione", "IDCella", "Pallet", "Descrizione", "Lotto"]
            sum_headers = ["Corsia", "TotCelle", "CelleMultiple", "Percentuale"]

            def _hdr(ws, headers):
                """Write formatted headers into the given worksheet."""
                for j, header in enumerate(headers, start=1):
                    cell = ws.cell(row=1, column=j, value=header)
                    cell.font = Font(bold=True)
                    cell.alignment = Alignment(horizontal="center", vertical="center")

            _hdr(ws_det, det_headers)
            _hdr(ws_sum, sum_headers)

            row_idx = 2
            for corsia_node in self.tree.get_children(""):
                for cella_node in self.tree.get_children(corsia_node):
                    for pallet_node in self.tree.get_children(cella_node):
                        tags = self.tree.item(pallet_node, "tags") or ()
                        if "pallet" not in tags:
                            continue
                        corsia = next((tag.split(":", 1)[1] for tag in tags if tag.startswith("corsia:")), "")
                        ubi = next((tag.split(":", 1)[1] for tag in tags if tag.startswith("ubicazione:")), "")
                        idcella = next((tag.split(":", 1)[1] for tag in tags if tag.startswith("idcella:")), "")
                        pallet = self.tree.item(pallet_node, "text")
                        desc, lotto = self.tree.item(pallet_node, "values")
                        for j, value in enumerate([corsia, ubi, idcella, pallet, desc, lotto], start=1):
                            ws_det.cell(row=row_idx, column=j, value=value)
                        row_idx += 1

            row_idx = 2
            for iid in self.sum_tbl.get_children(""):
                vals = self.sum_tbl.item(iid, "values")
                for j, value in enumerate(vals, start=1):
                    ws_sum.cell(row=row_idx, column=j, value=value)
                row_idx += 1

            def _autosize(ws):
                """Resize worksheet columns based on their longest value."""
                widths = {}
                for row in ws.iter_rows(values_only=True):
                    for j, value in enumerate(row, start=1):
                        value_s = "" if value is None else str(value)
                        widths[j] = max(widths.get(j, 0), len(value_s))
                from openpyxl.utils import get_column_letter

                for j, width in widths.items():
                    ws.column_dimensions[get_column_letter(j)].width = min(max(width + 2, 10), 60)

            _autosize(ws_det)
            _autosize(ws_sum)
            wb.save(fname)
            messagebox.showinfo("Esportazione completata", f"File creato:\n{fname}", parent=self)
        except Exception as ex:
            messagebox.showerror("Errore esportazione", str(ex), parent=self)


def open_celle_multiple_window(root: tk.Tk, db_client, runner: AsyncRunner | None = None):
    """Create, focus and return the duplicated-cells explorer."""
    win = CelleMultipleWindow(root, db_client, runner=runner)
    win.lift()
    win.focus_set()
    return win