app.py

#!/usr/bin/env python3
"""
# ══════════════════════════════════════════════════════════════
# ☢︎ RADIOTERAPIA.AI — POP de elite
# app.py — Hugging Face Spaces
# por: Braga, HF.
# ══════════════════════════════════════════════════════════════
"""

import json, os, tempfile, io
from datetime import datetime
try:
    import graphviz as gv
    HAS_GRAPHVIZ = True
except ImportError:
    HAS_GRAPHVIZ = False
from docx import Document
from docx.shared import Pt, Cm, Emu, RGBColor, Inches
from docx.enum.text import WD_ALIGN_PARAGRAPH
from docx.enum.table import WD_TABLE_ALIGNMENT
from docx.oxml.ns import qn, nsdecls
from docx.oxml import parse_xml

# ============================================================
# SISTEMA DE CORES DINÂMICO
# ============================================================

def hex_to_rgb(h):
    h = h.lstrip("#")
    return tuple(int(h[i:i+2], 16) for i in (0, 2, 4))

def rgb_to_hex(r, g, b):
    return f"{min(255,max(0,int(r))):02X}{min(255,max(0,int(g))):02X}{min(255,max(0,int(b))):02X}"

def lighten(hex_color, pct):
    """Clareia uma cor por pct% misturando com branco."""
    r, g, b = hex_to_rgb(hex_color)
    return rgb_to_hex(r + (255-r)*pct, g + (255-g)*pct, b + (255-b)*pct)

def darken(hex_color, pct):
    r, g, b = hex_to_rgb(hex_color)
    return rgb_to_hex(r*(1-pct), g*(1-pct), b*(1-pct))

def build_palette(primary_hex):
    """Gera paleta completa a partir de uma cor primária."""
    p = primary_hex.lstrip("#").upper()
    return {
        "primary": p,                    # H1, bullets, table headers
        "primary_dark": darken(p, 0.15), # Texto sobre fundo claro
        "secondary": lighten(p, 0.45),   # H2, SmartArt — +10% mais claro que v4.0
        "tertiary": lighten(p, 0.70),    # Footer header, zebra — +10% mais claro
        "quaternary": lighten(p, 0.85),  # Zebra alternada mais clara
        "text_on_primary": "FFFFFF",     # Texto sobre cor primária
        "text_on_secondary": darken(p, 0.30),  # Texto sobre cor secundária
        "text_body": "1A1A1A",
        "header_text": "000000",         # PRETO automático para cabeçalho
        "border": darken(p, 0.0),
        "border_light": lighten(p, 0.20),
        "risk_red": "8B1A1A",
        "barrier_green": "1B5E20",
        "gray_border": "7F8C9A",
        "annex_border": "000000",
    }

def parse_color_input(val):
    """Parseia qualquer formato de cor do Gradio ColorPicker → hex 6 chars."""
    if not val:
        return DEFAULT_PRIMARY
    val = str(val).strip()

    # Formato rgb(R, G, B) ou rgba(R, G, B, A) — COM FLOATS
    if val.startswith("rgb"):
        import re
        # Capturar números com decimais: 248.402, 79.543, etc.
        nums = re.findall(r'[\d]+\.?[\d]*', val)
        if len(nums) >= 3:
            r = min(255, max(0, int(float(nums[0]))))
            g = min(255, max(0, int(float(nums[1]))))
            b = min(255, max(0, int(float(nums[2]))))
            return rgb_to_hex(r, g, b)
        return DEFAULT_PRIMARY

    # Formato hex
    c = val.lstrip("#")
    c = ''.join(ch for ch in c if ch in '0123456789abcdefABCDEF')
    if len(c) >= 6:
        return c[:6].upper()
    if len(c) == 3:
        return (c[0]*2 + c[1]*2 + c[2]*2).upper()
    return DEFAULT_PRIMARY

DEFAULT_PRIMARY = "283264"

FONTE = "Calibri"
TAM_CORPO = Pt(11)
TAM_H1 = Pt(12)
TAM_H2 = Pt(11)
TAM_SMALL = Pt(9)
TAM_HEADER = Pt(9)
TAM_TINY = Pt(8)

# Página A4
MARGEM_SUP = Cm(6.0)   # 6cm — espaço uniforme header↔corpo em todas as páginas
MARGEM_INF = Cm(3.0)
MARGEM_ESQ = Cm(2.5)
MARGEM_DIR = Cm(2.0)
LARGURA_DXA = int((21 - 2.5 - 2.0) * 567)

# Indentação hierárquica
IND_H2 = 0.5
IND_BODY = 0.5
IND_ITEM = 1.0
IND_SUBITEM = 1.5


# ============================================================
# UTILITÁRIOS DOCX
# ============================================================

def set_shading(cell, color):
    cell._tc.get_or_add_tcPr().append(
        parse_xml(f'<w:shd {nsdecls("w")} w:fill="{color}" w:val="clear"/>'))

def set_borders(cell, top=None, bottom=None, left=None, right=None):
    tcPr = cell._tc.get_or_add_tcPr()
    borders = parse_xml(f'<w:tcBorders {nsdecls("w")}></w:tcBorders>')
    for side, val in [("top",top),("bottom",bottom),("left",left),("right",right)]:
        if val:
            c, s = val if isinstance(val, tuple) else (val, "4")
            borders.append(parse_xml(
                f'<w:{side} {nsdecls("w")} w:val="single" w:sz="{s}" w:space="0" w:color="{c}"/>'))
    tcPr.append(borders)

def set_valign(cell, v="center"):
    cell._tc.get_or_add_tcPr().append(parse_xml(f'<w:vAlign {nsdecls("w")} w:val="{v}"/>'))

def set_width(cell, w):
    cell._tc.get_or_add_tcPr().append(
        parse_xml(f'<w:tcW {nsdecls("w")} w:w="{w}" w:type="dxa"/>'))

def set_margins(cell, t=0, b=0, l=80, r=80):
    cell._tc.get_or_add_tcPr().append(parse_xml(
        f'<w:tcMar {nsdecls("w")}><w:top w:w="{t}" w:type="dxa"/>'
        f'<w:left w:w="{l}" w:type="dxa"/><w:bottom w:w="{b}" w:type="dxa"/>'
        f'<w:right w:w="{r}" w:type="dxa"/></w:tcMar>'))

def fmt(p, text, bold=False, italic=False, size=None, color=None, font=FONTE, caps=False):
    run = p.add_run(text)
    run.bold = bold; run.italic = italic
    if size: run.font.size = size
    if color: run.font.color.rgb = RGBColor.from_string(color)
    run.font.name = font
    if caps: run.font.all_caps = True
    return run


def _add_highlight_to_run(run, highlight_color="cyan"):
    """Aplica highlight (fundo colorido) a um run via XML.
    Aceita nomes Word (cyan, yellow...) ou hex 6-char para shading."""
    rPr = run._r.get_or_add_rPr()
    if len(highlight_color) == 6 and all(c in '0123456789ABCDEFabcdef' for c in highlight_color):
        # Hex color → usar shading (aceita qualquer cor)
        rPr.append(parse_xml(f'<w:shd {nsdecls("w")} w:fill="{highlight_color}" w:val="clear"/>'))
    else:
        # Nome Word predefinido (cyan, yellow, etc)
        rPr.append(parse_xml(f'<w:highlight {nsdecls("w")} w:val="{highlight_color}"/>'))


def fmt_with_meta_badges(p, text, size=None, color="1A1A1A", font=FONTE, pal=None):
    """Renderiza texto com badges visuais para Metas OMS (Meta 1..Meta 6).
    Metas ficam em bold + highlight com cor terciária da paleta."""
    import re
    pattern = re.compile(r'(Meta\s+[1-6])', re.IGNORECASE)
    parts = pattern.split(text)
    badge_color = pal["tertiary"] if pal else "cyan"
    badge_text_color = pal["primary_dark"] if pal else "1A3A6E"
    for part in parts:
        if pattern.match(part):
            run = p.add_run(f" {part} ")
            run.bold = True
            run.font.name = font
            if size: run.font.size = size
            run.font.color.rgb = RGBColor.from_string(badge_text_color)
            _add_highlight_to_run(run, badge_color)
        else:
            if part:
                run = p.add_run(part)
                run.font.name = font
                if size: run.font.size = size
                if color: run.font.color.rgb = RGBColor.from_string(color)

def spacing(p, before=0, after=0, line=1.15):
    pf = p.paragraph_format
    pf.space_before = Pt(before); pf.space_after = Pt(after); pf.line_spacing = line

def p_shading(p, color):
    p._p.get_or_add_pPr().append(
        parse_xml(f'<w:shd {nsdecls("w")} w:fill="{color}" w:val="clear"/>'))

def repeat_header(row):
    row._tr.get_or_add_trPr().append(parse_xml(f'<w:tblHeader {nsdecls("w")}/>'))

def page_break(doc):
    p = doc.add_paragraph()
    p.add_run()._r.append(parse_xml(f'<w:br {nsdecls("w")} w:type="page"/>'))


# ============================================================
# HEADER + FOOTER
# ============================================================

def build_header(section, meta, pal, logo_bytes=None):
    header = section.header
    header.is_linked_to_previous = False
    for p in header.paragraphs: p.clear()

    tbl = header.add_table(rows=4, cols=3, width=Cm(16.5))
    tbl.alignment = WD_TABLE_ALIGNMENT.CENTER
    cw = [1700, 5800, 2900]
    brd = (pal["gray_border"], "4")

    for row in tbl.rows:
        for i, cell in enumerate(row.cells):
            set_width(cell, cw[i]); set_valign(cell)
            set_margins(cell, 30, 30, 80, 80)
            set_borders(cell, brd, brd, brd, brd)

    # Logo
    logo_cell = tbl.cell(0,0).merge(tbl.cell(3,0))
    logo_cell.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
    if logo_bytes:
        from docx.shared import Inches as In
        run = logo_cell.paragraphs[0].add_run()
        run.add_picture(io.BytesIO(logo_bytes), height=Cm(1.8))
    else:
        fmt(logo_cell.paragraphs[0], "[LOGO]", bold=True, size=Pt(10), color="888888")

    # Título — PRETO
    tc = tbl.cell(0,1).merge(tbl.cell(1,1))
    tc.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
    fmt(tc.paragraphs[0], "PROCEDIMENTO OPERACIONAL PADRÃO",
        bold=True, size=Pt(13), color="000000")

    # Nome do processo — PRETO
    pc = tbl.cell(2,1).merge(tbl.cell(3,1))
    pc.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
    fmt(pc.paragraphs[0], meta.get("titulo_processo","").upper(),
        bold=True, size=Pt(12), color="000000")

    # Metadados — PRETO
    for i, (lbl, val) in enumerate([
        ("Código:  ", meta.get("codigo","POP-XXX-001")),
        ("Elaborado em:  ", meta.get("data_elaboracao","")),
        ("Revisado em:  ", meta.get("data_revisao","—")),
        ("Válido até:  ", meta.get("validade","")),
    ]):
        c = tbl.cell(i, 2)
        c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
        fmt(c.paragraphs[0], lbl, bold=True, size=TAM_HEADER, color="000000")
        fmt(c.paragraphs[0], val or "—", size=TAM_HEADER, color="000000")


def build_footer(section, meta, pal):
    footer = section.footer
    footer.is_linked_to_previous = False
    for p in footer.paragraphs: p.clear()

    footer.add_paragraph()  # separator
    tbl = footer.add_table(rows=2, cols=3, width=Cm(16.5))
    tbl.alignment = WD_TABLE_ALIGNMENT.CENTER
    cw = [3500, 3500, 3400]
    brd = (pal["gray_border"], "4")

    for row in tbl.rows:
        for i, cell in enumerate(row.cells):
            set_width(cell, cw[i]); set_valign(cell)
            set_margins(cell, 30, 30, 60, 60)
            set_borders(cell, brd, brd, brd, brd)

    for i, h in enumerate(["Elaborado por:", "Validado por:", "Aprovado por:"]):
        c = tbl.cell(0, i)
        set_shading(c, pal["tertiary"])  # Cor terciária no header do rodapé
        c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
        fmt(c.paragraphs[0], h, bold=True, size=TAM_SMALL, color=pal["primary_dark"])

    for i, key in enumerate(["elaborado_por", "validado_por", "aprovado_por"]):
        c = tbl.cell(1, i)
        person = meta.get(key, {})
        nome = person.get("nome","") if isinstance(person, dict) else ""
        cargo = person.get("cargo","") if isinstance(person, dict) else ""
        c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
        if nome:
            fmt(c.paragraphs[0], nome, bold=True, size=TAM_SMALL, color=pal["text_body"])
            p2 = c.add_paragraph(); p2.alignment = WD_ALIGN_PARAGRAPH.CENTER
            fmt(p2, cargo, size=TAM_TINY, color="666666")
        else:
            fmt(c.paragraphs[0], "________________", size=TAM_SMALL, color="AAAAAA")

    # Página X de Y
    pp = footer.add_paragraph()
    pp.alignment = WD_ALIGN_PARAGRAPH.RIGHT
    spacing(pp, 2, 0)
    fmt(pp, "Página ", size=TAM_TINY, color="888888")
    # Campo PAGE (número atual)
    for x in [f'<w:fldChar {nsdecls("w")} w:fldCharType="begin"/>',
              f'<w:instrText {nsdecls("w")} xml:space="preserve"> PAGE </w:instrText>',
              f'<w:fldChar {nsdecls("w")} w:fldCharType="separate"/>']:
        pp.add_run()._r.append(parse_xml(x))
    r = pp.add_run("1"); r.font.size = TAM_TINY; r.font.color.rgb = RGBColor.from_string("888888")
    pp.add_run()._r.append(parse_xml(f'<w:fldChar {nsdecls("w")} w:fldCharType="end"/>'))
    # " de " + NUMPAGES (total)
    fmt(pp, " de ", size=TAM_TINY, color="888888")
    for x in [f'<w:fldChar {nsdecls("w")} w:fldCharType="begin"/>',
              f'<w:instrText {nsdecls("w")} xml:space="preserve"> NUMPAGES </w:instrText>',
              f'<w:fldChar {nsdecls("w")} w:fldCharType="separate"/>']:
        pp.add_run()._r.append(parse_xml(x))
    r2 = pp.add_run("1"); r2.font.size = TAM_TINY; r2.font.color.rgb = RGBColor.from_string("888888")
    pp.add_run()._r.append(parse_xml(f'<w:fldChar {nsdecls("w")} w:fldCharType="end"/>'))
    fmt(pp, f"  |  {meta.get('codigo','POP-XXX-001')}  |  v{meta.get('versao','01')}",
        size=TAM_TINY, color="888888")


# ============================================================
# ELEMENTOS DE CONTEÚDO
# ============================================================

def add_h1(doc, num, titulo, pal):
    p = doc.add_paragraph(); spacing(p, 16, 8)
    p_shading(p, pal["primary"])
    pf = p.paragraph_format; pf.left_indent = Cm(0.3); pf.right_indent = Cm(0.3)
    fmt(p, f"  {num}.  {titulo.upper()}", bold=True, size=TAM_H1, color=pal["text_on_primary"])

def add_h2(doc, num, titulo, pal):
    p = doc.add_paragraph(); spacing(p, 12, 6)
    p_shading(p, pal["secondary"])
    pf = p.paragraph_format; pf.left_indent = Cm(IND_H2 + 0.3); pf.right_indent = Cm(0.3)
    fmt(p, f"  {num}.  {titulo.upper()}", bold=True, size=TAM_H2, color=pal["text_on_secondary"])

def add_body(doc, text, indent=IND_BODY):
    p = doc.add_paragraph(); p.alignment = WD_ALIGN_PARAGRAPH.JUSTIFY
    spacing(p, 2, 5, 1.15); p.paragraph_format.left_indent = Cm(indent)
    fmt(p, text, size=TAM_CORPO, color="1A1A1A")

def add_bullet(doc, text, bold_prefix=None, indent=IND_ITEM, pal=None):
    c = pal["primary"] if pal else DEFAULT_PRIMARY
    p = doc.add_paragraph(); p.alignment = WD_ALIGN_PARAGRAPH.JUSTIFY
    spacing(p, 1, 3, 1.15)
    p.paragraph_format.left_indent = Cm(indent); p.paragraph_format.first_line_indent = Cm(-0.4)
    fmt(p, "●  ", size=Pt(9), color=c, bold=True)
    if bold_prefix:
        fmt(p, bold_prefix, bold=True, size=TAM_CORPO, color=c)
        fmt(p, text, size=TAM_CORPO, color="1A1A1A")
    else:
        fmt(p, text, size=TAM_CORPO, color="1A1A1A")

def add_num(doc, n, text, indent=IND_SUBITEM, pal=None, critico=False):
    c = pal["primary"] if pal else DEFAULT_PRIMARY
    p = doc.add_paragraph(); p.alignment = WD_ALIGN_PARAGRAPH.JUSTIFY
    spacing(p, 1, 4, 1.15)
    p.paragraph_format.left_indent = Cm(indent); p.paragraph_format.first_line_indent = Cm(-0.5)
    if critico:
        fmt(p, f"\u26a0  ", bold=True, size=TAM_CORPO, color="C05000")
        fmt(p, f"{n}. [PASSO CR\u00cdTICO]  ", bold=True, size=TAM_CORPO, color="C05000")
    else:
        fmt(p, f"{n}.  ", bold=True, size=TAM_CORPO, color=c)
    # Texto com badges de Meta OMS
    fmt_with_meta_badges(p, text, size=TAM_CORPO, pal=pal)

def add_def_item(doc, termo, defn, pal):
    p = doc.add_paragraph(); p.alignment = WD_ALIGN_PARAGRAPH.JUSTIFY
    spacing(p, 2, 5, 1.15)
    p.paragraph_format.left_indent = Cm(IND_ITEM); p.paragraph_format.first_line_indent = Cm(-0.4)
    fmt(p, "●  ", size=Pt(9), color=pal["primary"], bold=True)
    fmt(p, f"{termo}:  ", bold=True, size=TAM_CORPO, color=pal["primary"])
    fmt(p, defn, size=TAM_CORPO, color="1A1A1A")

def add_risk(doc, risco, barreira, pal):
    p = doc.add_paragraph(); p.alignment = WD_ALIGN_PARAGRAPH.JUSTIFY
    spacing(p, 4, 3, 1.15)
    p.paragraph_format.left_indent = Cm(IND_ITEM); p.paragraph_format.first_line_indent = Cm(-0.5)
    fmt(p, "⚠  ", size=TAM_CORPO, color=pal["risk_red"], bold=True)
    fmt(p, "Risco:  ", bold=True, size=TAM_CORPO, color=pal["risk_red"])
    fmt(p, risco, size=TAM_CORPO, color="1A1A1A")
    p2 = doc.add_paragraph(); p2.alignment = WD_ALIGN_PARAGRAPH.JUSTIFY
    spacing(p2, 0, 8, 1.15); p2.paragraph_format.left_indent = Cm(IND_SUBITEM)
    fmt(p2, "↳  Barreira de Segurança:  ", bold=True, size=TAM_CORPO, color=pal["barrier_green"])
    fmt(p2, barreira, size=TAM_CORPO, color="1A1A1A")


# ============================================================
# TABELAS
# ============================================================

def add_table(doc, headers, rows, col_widths=None, pal=None):
    nc = len(headers)
    if not col_widths: col_widths = [LARGURA_DXA // nc] * nc
    tbl = doc.add_table(rows=1+len(rows), cols=nc)
    tbl.alignment = WD_TABLE_ALIGNMENT.CENTER
    brd = (pal["border_light"], "4") if pal else ("3B6AA0", "4")
    brd2 = (pal["gray_border"], "2") if pal else ("7F8C9A", "2")

    for i, h in enumerate(headers):
        c = tbl.cell(0, i); set_shading(c, pal["primary"] if pal else DEFAULT_PRIMARY)
        set_width(c, col_widths[i]); set_valign(c)
        set_margins(c, 50, 50, 80, 80); set_borders(c, brd, brd, brd, brd)
        c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
        fmt(c.paragraphs[0], h, bold=True, size=TAM_SMALL, color="FFFFFF")
    repeat_header(tbl.rows[0])

    for ri, rd in enumerate(rows):
        for ci, val in enumerate(rd):
            c = tbl.cell(ri+1, ci); set_width(c, col_widths[ci]); set_valign(c)
            set_margins(c, 40, 40, 80, 80); set_borders(c, brd2, brd2, brd2, brd2)
            a = WD_ALIGN_PARAGRAPH.LEFT if ci == 0 and nc > 2 else WD_ALIGN_PARAGRAPH.CENTER
            c.paragraphs[0].alignment = a
            fmt(c.paragraphs[0], str(val), size=TAM_SMALL, color="1A1A1A")
        if ri % 2 == 0:
            for ci in range(nc):
                set_shading(tbl.cell(ri+1, ci), pal["tertiary"] if pal else "E8EFF7")
    doc.add_paragraph()


# ============================================================
# SMARTART
# ============================================================

def add_process(doc, titulo, etapas, pal):
    if not etapas: return
    p = doc.add_paragraph(); spacing(p, 8, 6)
    p.paragraph_format.left_indent = Cm(IND_BODY)
    fmt(p, f"▸  {titulo}", bold=True, size=TAM_CORPO, color=pal["primary"])

    n = len(etapas); total = n*2-1; aw = 400
    bw = (LARGURA_DXA - aw*(n-1)) // n
    tbl = doc.add_table(rows=1, cols=total)
    tbl.alignment = WD_TABLE_ALIGNMENT.CENTER
    colors = [pal["primary"], pal["primary"], pal["primary"], pal["primary"]]

    for ci in range(total):
        c = tbl.cell(0, ci)
        if ci % 2 == 0:
            ei = ci // 2
            set_width(c, bw); set_shading(c, pal["primary"] if ei % 2 == 0 else lighten(pal["primary"], 0.15))
            bg = pal["primary"] if ei % 2 == 0 else lighten(pal["primary"], 0.15)
            set_borders(c, (bg,"6"), (bg,"6"), (bg,"6"), (bg,"6"))
            set_valign(c); set_margins(c, 60, 60, 80, 80)
            c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
            fmt(c.paragraphs[0], f"Etapa {ei+1}", bold=True, size=TAM_TINY, color="FFFFFF")
            p2 = c.add_paragraph(); p2.alignment = WD_ALIGN_PARAGRAPH.CENTER
            fmt(p2, etapas[ei], size=TAM_SMALL, color="FFFFFF")
        else:
            set_width(c, aw)
            set_borders(c,("FFFFFF","0"),("FFFFFF","0"),("FFFFFF","0"),("FFFFFF","0"))
            set_valign(c); c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
            fmt(c.paragraphs[0], "→", bold=True, size=Pt(16), color=pal["primary"])
    doc.add_paragraph()


def add_checklist(doc, titulo, itens, pal):
    if not itens: return
    p = doc.add_paragraph(); spacing(p, 8, 6)
    p.paragraph_format.left_indent = Cm(IND_BODY)
    fmt(p, f"▸  {titulo}", bold=True, size=TAM_CORPO, color=pal["primary"])

    tbl = doc.add_table(rows=len(itens), cols=2)
    tbl.alignment = WD_TABLE_ALIGNMENT.CENTER
    chw = 600; tw = LARGURA_DXA - chw

    for ri, item in enumerate(itens):
        cc = tbl.cell(ri, 0); set_width(cc, chw); set_valign(cc)
        set_margins(cc, 40, 40, 40, 40); set_shading(cc, pal["primary"])
        set_borders(cc,("FFFFFF","2"),("FFFFFF","2"),(pal["primary"],"4"),("FFFFFF","2"))
        cc.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
        fmt(cc.paragraphs[0], "✓", bold=True, size=Pt(14), color="FFFFFF")

        ct = tbl.cell(ri, 1); set_width(ct, tw); set_valign(ct)
        set_margins(ct, 50, 50, 120, 80)
        bg = pal["quaternary"] if ri % 2 == 0 else "FFFFFF"
        set_shading(ct, bg)
        set_borders(ct,(pal["gray_border"],"2"),(pal["gray_border"],"2"),("FFFFFF","0"),(pal["gray_border"],"2"))
        ct.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.LEFT
        fmt(ct.paragraphs[0], item, size=TAM_CORPO, color="1A1A1A")
    doc.add_paragraph()


def add_cycle(doc, titulo, etapas, pal):
    if not etapas: return
    p = doc.add_paragraph(); spacing(p, 8, 6)
    p.paragraph_format.left_indent = Cm(IND_BODY)
    fmt(p, f"▸  {titulo}", bold=True, size=TAM_CORPO, color=pal["primary"])

    n = len(etapas); cpr = min(n, 4); rows_n = (n+cpr-1)//cpr
    bw = LARGURA_DXA // cpr
    tbl = doc.add_table(rows=rows_n, cols=cpr)
    tbl.alignment = WD_TABLE_ALIGNMENT.CENTER

    for idx, et in enumerate(etapas):
        r, c_idx = idx//cpr, idx%cpr
        c = tbl.cell(r, c_idx); set_width(c, bw)
        bg = pal["primary"] if idx % 2 == 0 else lighten(pal["primary"], 0.15)
        set_shading(c, bg)
        set_borders(c,("FFFFFF","4"),("FFFFFF","4"),("FFFFFF","4"),("FFFFFF","4"))
        set_valign(c); set_margins(c, 60, 60, 80, 80)
        c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
        arrow = "  →" if idx < n-1 else "  ⟳"
        fmt(c.paragraphs[0], f"{idx+1}{arrow}", bold=True, size=TAM_TINY, color="FFFFFF")
        p2 = c.add_paragraph(); p2.alignment = WD_ALIGN_PARAGRAPH.CENTER
        fmt(p2, et, size=TAM_SMALL, color="FFFFFF")

    for idx in range(n, rows_n*cpr):
        c = tbl.cell(idx//cpr, idx%cpr)
        set_borders(c,("FFFFFF","0"),("FFFFFF","0"),("FFFFFF","0"),("FFFFFF","0"))
    doc.add_paragraph()


# ============================================================
# ANEXOS COM BORDA — 1 PÁGINA POR ANEXO, BORDA FULL-HEIGHT
# ============================================================

# Altura da caixa bordada em DXA (~14.5cm para caber com H1+descrição na mesma página)
ANNEX_BOX_HEIGHT_DXA = 8200

def _set_row_height(row, height_dxa):
    """Define altura mínima de uma linha de tabela."""
    trPr = row._tr.get_or_add_trPr()
    trPr.append(parse_xml(
        f'<w:trHeight {nsdecls("w")} w:val="{height_dxa}" w:hRule="atLeast"/>'))

def _fill_cell_blank_lines(cell, n=8):
    """Adiciona linhas em branco ao final de uma célula para preenchimento vertical."""
    for _ in range(n):
        p = cell.add_paragraph()
        p.paragraph_format.space_before = Pt(0)
        p.paragraph_format.space_after = Pt(0)

def start_annex_border(doc, pal):
    """Cria container bordado com altura mínima full-page."""
    tbl = doc.add_table(rows=1, cols=1)
    tbl.alignment = WD_TABLE_ALIGNMENT.CENTER
    c = tbl.cell(0, 0)
    brd = (pal["annex_border"], "6")
    set_borders(c, brd, brd, brd, brd)
    set_width(c, LARGURA_DXA)
    set_margins(c, 150, 150, 250, 250)
    _set_row_height(tbl.rows[0], ANNEX_BOX_HEIGHT_DXA)
    return c, tbl


# ============================================================
# GERADOR DE DIAGRAMAS VIA GRAPHVIZ (imagens PNG)
# ============================================================

def gerar_diagrama_png(tipo, conteudo, titulo, pal, context="annex"):
    """Gera PNG de diagrama profissional via Graphviz. Retorna path ou None.
    context: 'inline' (no corpo do procedimento) ou 'annex' (página de anexo)."""
    if not HAS_GRAPHVIZ:
        return None
    try:
        dot = gv.Digraph(format='png')
        dot.attr(dpi='120', bgcolor='transparent', margin='0.15', nodesep='0.4', ranksep='0.5')
        node_style = {
            'style': 'filled,rounded', 'shape': 'box', 'fontname': 'Arial',
            'fontsize': '11', 'fillcolor': f'#{pal["primary"]}',
            'fontcolor': '#FFFFFF', 'color': f'#{pal["primary_dark"]}', 'penwidth': '1.2',
            'height': '0.5', 'margin': '0.12,0.06'
        }
        node_light = {**node_style, 'fillcolor': f'#{pal["secondary"]}',
                      'fontcolor': f'#{pal["text_on_secondary"]}'}
        node_ter = {**node_style, 'fillcolor': f'#{pal["tertiary"]}',
                    'fontcolor': f'#{pal["primary_dark"]}'}
        edge_style = {'color': f'#{pal["primary"]}', 'penwidth': '1.0', 'arrowsize': '0.6'}
        node_decision = {**node_style, 'shape': 'diamond', 'height': '0.7', 'width': '1.2'}

        # Mapear formas
        forma_map = {'elipse': 'ellipse', 'losango': 'diamond', 'retangulo': 'box',
                     'ellipse': 'ellipse', 'diamond': 'diamond', 'box': 'box'}

        def _parse_etapa(et, idx=0, total=1):
            if isinstance(et, dict):
                txt = et.get('texto', et.get('titulo', str(et)))[:30]
                frm = forma_map.get(et.get('forma', 'retangulo'), 'box')
                return txt, frm
            txt = str(et)[:30]
            if idx == 0 or idx == total - 1:
                return txt, 'ellipse'
            if '?' in str(et):
                return txt, 'diamond'
            return txt, 'box'

        if tipo in ("processo", "fluxograma"):
            etapas_raw = conteudo if isinstance(conteudo, list) else [conteudo]
            has_decision = any(
                (isinstance(e, dict) and e.get('forma') in ('losango','diamond'))
                or (isinstance(e, str) and '?' in e)
                for e in etapas_raw
            )

            if context == "inline" and not has_decision:
                # ── INLINE TIPO 1: Linear simples, max 5 etapas ──
                etapas = etapas_raw[:5]
                dot.attr(rankdir='LR', size='8,2!')
                for i, et in enumerate(etapas):
                    txt, frm = _parse_etapa(et, i, len(etapas))
                    st = {**(node_style if i % 2 == 0 else node_light), 'shape': frm}
                    dot.node(f'n{i}', txt, **st)
                    if i > 0:
                        dot.edge(f'n{i-1}', f'n{i}', **edge_style)

            elif context == "inline" and has_decision:
                # ── INLINE TIPO 2: 2 sequenciais + decisão + split ──
                # Layout: n0 → n1 (mesma linha)
                #              ↓
                #            n2 (losango)
                #           ↙     ↘
                #         n3       n4
                etapas = etapas_raw[:5]
                dot.attr(rankdir='TB', size='7,4!')
                for i, et in enumerate(etapas):
                    txt, frm = _parse_etapa(et, i, len(etapas))
                    if i == 2 or frm == 'diamond':
                        st = {**node_decision}
                    elif i < 2:
                        st = {**node_style, 'shape': frm}
                    else:
                        st = {**node_light, 'shape': frm}
                    dot.node(f'n{i}', txt, **st)
                # Edges: 0→1, 1→2, 2→3(left), 2→4(right)
                if len(etapas) >= 2: dot.edge('n0', 'n1', **edge_style)
                if len(etapas) >= 3: dot.edge('n1', 'n2', **edge_style)
                if len(etapas) >= 4: dot.edge('n2', 'n3', **edge_style, label='  N\u00e3o', fontsize='9', fontcolor=f'#{pal["primary"]}')
                if len(etapas) >= 5: dot.edge('n2', 'n4', **edge_style, label='  Sim', fontsize='9', fontcolor=f'#{pal["primary"]}')
                # Ranks
                dot.body.append('  { rank=same; n0 n1 }')
                if len(etapas) >= 4:
                    rank_bottom = 'n3'
                    if len(etapas) >= 5: rank_bottom += ' n4'
                    dot.body.append(f'  {{ rank=same; {rank_bottom} }}')

            else:
                # ── ANEXO: Layout 3 colunas com splits em decisões ──
                etapas = etapas_raw[:10]
                n = len(etapas)
                dot.attr(rankdir='TB', size='7,4!')
                # Criar todos os nós
                for i, et in enumerate(etapas):
                    txt, frm = _parse_etapa(et, i, n)
                    if frm == 'diamond':
                        st = {**node_decision}
                    elif i % 2 == 0:
                        st = {**node_style, 'shape': frm}
                    else:
                        st = {**node_light, 'shape': frm}
                    dot.node(f'n{i}', txt, **st)
                # Edges inteligentes: detectar diamonds e criar splits
                diamonds = [i for i in range(n) if _parse_etapa(etapas[i], i, n)[1] == 'diamond']
                if diamonds:
                    # Edges sequenciais até o primeiro diamond
                    d1 = diamonds[0]
                    for i in range(d1):
                        dot.edge(f'n{i}', f'n{i+1}', **edge_style)
                    # Primeiro split
                    left_idx = d1 + 1 if d1 + 1 < n else None
                    right_idx = d1 + 2 if d1 + 2 < n else None
                    if left_idx is not None:
                        dot.edge(f'n{d1}', f'n{left_idx}', **edge_style,
                                 label='  N\u00e3o', fontsize='9', fontcolor=f'#{pal["primary"]}')
                    if right_idx is not None:
                        dot.edge(f'n{d1}', f'n{right_idx}', **edge_style,
                                 label='  Sim', fontsize='9', fontcolor=f'#{pal["primary"]}')
                    # Ranks: centro, split esquerdo/direito
                    if left_idx and right_idx:
                        dot.body.append(f'  {{ rank=same; n{left_idx} n{right_idx} }}')
                    # Continuação após split
                    used = set(range(d1 + 1)) | {d1, left_idx, right_idx}
                    remaining = [i for i in range(n) if i not in used and i is not None]
                    # Left path
                    if left_idx is not None and remaining:
                        left_next = remaining[0]
                        dot.edge(f'n{left_idx}', f'n{left_next}', **edge_style)
                        remaining = remaining[1:]
                    # Right path: sequencial
                    prev_right = right_idx
                    for ri in remaining:
                        if prev_right is not None:
                            frm_ri = _parse_etapa(etapas[ri], ri, n)[1]
                            if frm_ri == 'diamond' and ri + 1 < n and ri + 2 < n:
                                # Segundo split
                                dot.edge(f'n{prev_right}', f'n{ri}', **edge_style)
                                dot.edge(f'n{ri}', f'n{ri+1}', **edge_style,
                                         label='  N\u00e3o', fontsize='9', fontcolor=f'#{pal["primary"]}')
                                dot.edge(f'n{ri}', f'n{ri+2}', **edge_style,
                                         label='  Sim', fontsize='9', fontcolor=f'#{pal["primary"]}')
                                dot.body.append(f'  {{ rank=same; n{ri+1} n{ri+2} }}')
                                break
                            else:
                                dot.edge(f'n{prev_right}', f'n{ri}', **edge_style)
                                prev_right = ri
                else:
                    # Sem diamonds: zigzag simples
                    per_row = 3
                    for i in range(n):
                        if i > 0:
                            dot.edge(f'n{i-1}', f'n{i}', **edge_style)
                    for row_start in range(0, n, per_row):
                        row_nodes = ' '.join(f'n{j}' for j in range(row_start, min(row_start + per_row, n)))
                        dot.body.append(f'  {{ rank=same; {row_nodes} }}')

        elif tipo == "hierarquia":
            dot.attr(rankdir='TB', size='8,4.5!')
            items = conteudo if isinstance(conteudo, list) else [conteudo]
            for i, item in enumerate(items):
                if isinstance(item, dict):
                    lbl = item.get('titulo', '')[:30]
                    dot.node(f'g{i}', lbl, **node_style)
                    for j, sub in enumerate(item.get('subitens', [])):
                        dot.node(f'g{i}s{j}', sub[:25], **node_light)
                        dot.edge(f'g{i}', f'g{i}s{j}', **edge_style)
                else:
                    dot.node(f'g{i}', str(item)[:30], **node_style)
                    if i > 0:
                        dot.edge(f'g{i-1}', f'g{i}', **edge_style)

        elif tipo == "piramide":
            dot.attr(rankdir='TB', size='7,5!')
            items = conteudo if isinstance(conteudo, list) else [conteudo]
            for i, item in enumerate(items):
                w = str(max(1.5, 3.5 - i * 0.4))
                st = {**node_style, 'width': w, 'fixedsize': 'true', 'height': '0.45'}
                if i > len(items) // 2:
                    st = {**node_ter, 'width': w, 'fixedsize': 'true', 'height': '0.45'}
                dot.node(f'p{i}', str(item)[:30], **st)
                if i > 0:
                    dot.edge(f'p{i-1}', f'p{i}', **edge_style, style='invis')
            for i in range(len(items)):
                dot.body.append(f'  {{ rank=same; p{i} }}')

        elif tipo == "ciclo":
            dot.attr(rankdir='LR', size='8,3!')  # Horizontal e compacto
            etapas = conteudo if isinstance(conteudo, list) else [conteudo]
            n = len(etapas)
            for i, et in enumerate(etapas):
                st = node_style if i % 2 == 0 else node_light
                dot.node(f'c{i}', et[:30], **st)
            for i in range(n):
                dot.edge(f'c{i}', f'c{(i+1)%n}', **edge_style)

        else:
            return None

        out = os.path.join(tempfile.gettempdir(), f"diag_{tipo}_{id(conteudo)}")
        return dot.render(out, cleanup=True)
    except Exception:
        return None


def _inserir_diagrama_na_celula(cell, img_path):
    """Insere imagem PNG do diagrama dentro de uma célula do docx.
    Limita largura a 15cm E altura a 10cm para caber na caixa do anexo."""
    if not img_path or not os.path.exists(img_path):
        return False
    try:
        from PIL import Image as PILImage
        img = PILImage.open(img_path)
        w_px, h_px = img.size
        # Calcular dimensões respeitando limites
        max_w = Cm(15)
        max_h = Cm(10)
        ratio = w_px / h_px
        width = max_w
        height = int(width / ratio) if ratio > 0 else max_h
        if height > max_h:
            height = max_h
            width = int(height * ratio)
        p = cell.add_paragraph()
        p.alignment = WD_ALIGN_PARAGRAPH.CENTER
        run = p.add_run()
        run.add_picture(img_path, width=width)
        return True
    except Exception:
        try:
            p = cell.add_paragraph()
            p.alignment = WD_ALIGN_PARAGRAPH.CENTER
            run = p.add_run()
            run.add_picture(img_path, width=Cm(12))
            return True
        except:
            return False


def _inserir_diagrama_no_corpo(doc, img_path, legenda="", pal=None):
    """Insere imagem PNG de diagrama no corpo do documento (fora de tabela/célula).
    Centralizado, com legenda em itálico abaixo."""
    if not img_path or not os.path.exists(img_path):
        return
    try:
        p = doc.add_paragraph()
        p.alignment = WD_ALIGN_PARAGRAPH.CENTER
        p.paragraph_format.space_before = Pt(8)
        p.paragraph_format.space_after = Pt(4)
        run = p.add_run()
        run.add_picture(img_path, width=Cm(14))
        if legenda:
            pl = doc.add_paragraph()
            pl.alignment = WD_ALIGN_PARAGRAPH.CENTER
            pl.paragraph_format.space_before = Pt(2)
            pl.paragraph_format.space_after = Pt(8)
            fmt(pl, legenda, italic=True, size=Pt(9),
                color=pal["primary"] if pal else "333333")
    except Exception:
        pass


def _render_passo(doc, num, item, pal):
    """Renderiza um item de procedimento: string, dict com texto/prioridade, ou dict com diagrama.
    Formatos aceitos:
      - "texto simples"
      - {"texto": "...", "prioridade": "critica"}
      - {"diagrama": {"tipo":..., "titulo":..., "conteudo":...}}
      - {"tipo":..., "titulo":..., "conteudo":...}
    """
    if isinstance(item, str):
        add_num(doc, num, item, pal=pal)
    elif isinstance(item, dict):
        # Formato 1: {"texto": "...", "prioridade": "critica"}
        if "texto" in item and "diagrama" not in item and "tipo" not in item:
            texto = item.get("texto", "")
            critico = item.get("prioridade", "").lower() == "critica"
            add_num(doc, num, texto, pal=pal, critico=critico)
            return

        # Formato 2: diagrama (com ou sem wrapper "diagrama")
        diag = item.get("diagrama", None)
        if diag is None and "tipo" in item:
            diag = item
        if diag is None:
            # Dict não reconhecido — texto fallback
            add_num(doc, num, str(item), pal=pal)
            return
        tipo = diag.get("tipo", "processo")
        titulo = diag.get("titulo", "Diagrama")
        conteudo = diag.get("conteudo", [])
        img_path = gerar_diagrama_png(tipo, conteudo, titulo, pal, context="inline")
        if img_path:
            _inserir_diagrama_no_corpo(doc, img_path, titulo, pal)
        else:
            items_txt = ', '.join(str(c) for c in conteudo) if isinstance(conteudo, list) else str(conteudo)
            add_num(doc, num, f"[{titulo}]: {items_txt}", pal=pal)


def render_annex(doc, anexo, num, pal):
    page_break(doc)
    titulo = anexo.get("titulo", anexo) if isinstance(anexo, dict) else str(anexo)
    add_h1(doc, f"ANEXO {num}", titulo.upper(), pal)

    if isinstance(anexo, str):
        add_body(doc, f"Conteúdo do {titulo} — a ser inserido pela instituição.")
        return

    if anexo.get("descricao"):
        add_body(doc, anexo["descricao"])

    tipo = anexo.get("tipo", "texto")
    conteudo = anexo.get("conteudo", "")

    # Criar container bordado com altura full-page
    bc, border_tbl = start_annex_border(doc, pal)

    # Para tipos de diagrama: tentar Graphviz primeiro
    graphviz_ok = False
    if tipo in ("processo", "fluxograma", "hierarquia", "piramide", "ciclo"):
        img_path = gerar_diagrama_png(tipo, conteudo, titulo, pal)
        if img_path:
            _inserir_diagrama_na_celula(bc, img_path)
            graphviz_ok = True
            _fill_cell_blank_lines(bc, 6)

    # === CHECKLIST ===
    if graphviz_ok:
        pass  # Graphviz renderizou — pular SmartArt de tabela
    elif tipo == "checklist":
        itens = conteudo if isinstance(conteudo, list) else [conteudo]
        pt = bc.paragraphs[0]; pt.alignment = WD_ALIGN_PARAGRAPH.LEFT
        fmt(pt, f"▸  {titulo}", bold=True, size=TAM_CORPO, color=pal["primary"])
        inner = bc.add_table(rows=len(itens), cols=2)
        chw = 500; tw = LARGURA_DXA - 900
        for ri, item in enumerate(itens):
            cc = inner.cell(ri, 0); set_width(cc, chw); set_valign(cc)
            set_margins(cc, 30, 30, 30, 30); set_shading(cc, pal["primary"])
            set_borders(cc,("FFFFFF","2"),("FFFFFF","2"),(pal["primary"],"4"),("FFFFFF","2"))
            cc.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
            fmt(cc.paragraphs[0], "✓", bold=True, size=Pt(12), color="FFFFFF")
            ct = inner.cell(ri, 1); set_width(ct, tw); set_valign(ct)
            set_margins(ct, 40, 40, 100, 60)
            set_shading(ct, pal["quaternary"] if ri % 2 == 0 else "FFFFFF")
            set_borders(ct,(pal["gray_border"],"1"),(pal["gray_border"],"1"),("FFFFFF","0"),(pal["gray_border"],"1"))
            fmt(ct.paragraphs[0], item, size=TAM_SMALL, color="1A1A1A")
        _fill_cell_blank_lines(bc, max(1, 12 - len(itens)))

    # === ESCALA / TABELA ===
    elif tipo in ("escala", "tabela", "referencia", "referência"):
        headers = anexo.get("colunas", [])
        rows_data = anexo.get("linhas", [])
        # Handle Gemini format: conteudo = [{colunas: [...], linhas: [...]}]
        if not headers and isinstance(conteudo, list) and len(conteudo) > 0 and isinstance(conteudo[0], dict):
            tbl_obj = conteudo[0]
            headers = tbl_obj.get("colunas", [])
            rows_data = tbl_obj.get("linhas", [])
        # Fallback: if conteudo is list of lists (actual row data) and no linhas at annexo level
        if not rows_data and isinstance(conteudo, list) and len(conteudo) > 0 and isinstance(conteudo[0], list):
            rows_data = conteudo
        if headers and rows_data:
            bc.paragraphs[0].text = ""
            nc = len(headers); cw_each = (LARGURA_DXA - 900) // nc
            inner = bc.add_table(rows=1+len(rows_data), cols=nc)
            for i, h in enumerate(headers):
                c = inner.cell(0, i); set_shading(c, pal["primary"])
                set_width(c, cw_each); set_valign(c); set_margins(c, 40, 40, 60, 60)
                set_borders(c,(pal["primary"],"4"),(pal["primary"],"4"),(pal["primary"],"4"),(pal["primary"],"4"))
                c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                fmt(c.paragraphs[0], h, bold=True, size=TAM_SMALL, color="FFFFFF")
            for ri, rd in enumerate(rows_data):
                for ci, val in enumerate(rd):
                    c = inner.cell(ri+1, ci); set_width(c, cw_each); set_valign(c)
                    set_margins(c, 30, 30, 60, 60)
                    set_borders(c,(pal["gray_border"],"1"),(pal["gray_border"],"1"),
                                (pal["gray_border"],"1"),(pal["gray_border"],"1"))
                    c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                    fmt(c.paragraphs[0], str(val), size=TAM_SMALL, color="1A1A1A")
                if ri % 2 == 0:
                    for ci in range(nc): set_shading(inner.cell(ri+1, ci), pal["tertiary"])
        _fill_cell_blank_lines(bc, max(1, 10 - len(rows_data)))

    # === PROCESSO / FLUXOGRAMA ===
    elif tipo in ("processo", "fluxograma"):
        etapas = conteudo if isinstance(conteudo, list) else [conteudo]
        etapas = etapas[:6]
        fmt(bc.paragraphs[0], f"▸  Fluxo do Processo", bold=True, size=TAM_CORPO, color=pal["primary"])
        n = len(etapas); total = n*2-1; aw = 350
        bw = (LARGURA_DXA - 900 - aw*(n-1)) // n
        inner = bc.add_table(rows=1, cols=total)
        for ci in range(total):
            c = inner.cell(0, ci)
            if ci % 2 == 0:
                ei = ci // 2; set_width(c, bw)
                bg = pal["primary"] if ei % 2 == 0 else lighten(pal["primary"], 0.15)
                set_shading(c, bg); set_borders(c,(bg,"4"),(bg,"4"),(bg,"4"),(bg,"4"))
                set_valign(c); set_margins(c, 50, 50, 60, 60)
                c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                fmt(c.paragraphs[0], f"Etapa {ei+1}", bold=True, size=TAM_TINY, color="FFFFFF")
                p2 = c.add_paragraph(); p2.alignment = WD_ALIGN_PARAGRAPH.CENTER
                fmt(p2, etapas[ei], size=Pt(8), color="FFFFFF")
            else:
                set_width(c, aw)
                set_borders(c,("FFFFFF","0"),("FFFFFF","0"),("FFFFFF","0"),("FFFFFF","0"))
                set_valign(c); c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                fmt(c.paragraphs[0], "\u2192", bold=True, size=Pt(14), color=pal["primary"])
        _fill_cell_blank_lines(bc, 15)

    # === HIERARQUIA (organograma / classificação em níveis) ===
    elif tipo == "hierarquia":
        items = conteudo if isinstance(conteudo, list) else [conteudo]
        fmt(bc.paragraphs[0], f"\u25b8  {titulo}", bold=True, size=TAM_CORPO, color=pal["primary"])
        for item in items:
            if isinstance(item, dict):
                # Nível 1: box colorido
                p1 = bc.add_paragraph()
                p1.paragraph_format.space_before = Pt(6)
                p1_shading = parse_xml(f'<w:shd {nsdecls("w")} w:fill="{pal["primary"]}" w:val="clear"/>')
                p1._p.get_or_add_pPr().append(p1_shading)
                fmt(p1, f"  {item.get('titulo', '')}", bold=True, size=TAM_CORPO, color="FFFFFF")
                # Nível 2: subitens indentados com barra lateral
                for sub in item.get("subitens", []):
                    p2 = bc.add_paragraph()
                    p2.paragraph_format.left_indent = Cm(1.0)
                    p2.paragraph_format.space_before = Pt(2)
                    p2_shading = parse_xml(f'<w:shd {nsdecls("w")} w:fill="{pal["tertiary"]}" w:val="clear"/>')
                    p2._p.get_or_add_pPr().append(p2_shading)
                    fmt(p2, f"  \u25b9  {sub}", size=TAM_SMALL, color=pal["primary_dark"])
            elif isinstance(item, str):
                p1 = bc.add_paragraph()
                p1_shading = parse_xml(f'<w:shd {nsdecls("w")} w:fill="{pal["secondary"]}" w:val="clear"/>')
                p1._p.get_or_add_pPr().append(p1_shading)
                fmt(p1, f"  {item}", bold=True, size=TAM_SMALL, color=pal["primary_dark"])
        _fill_cell_blank_lines(bc, max(1, 8 - len(items)))

    # === PIRÂMIDE (de cima para baixo, estreito→largo) ===
    elif tipo == "piramide":
        items = conteudo if isinstance(conteudo, list) else [conteudo]
        fmt(bc.paragraphs[0], f"\u25b8  {titulo}", bold=True, size=TAM_CORPO, color=pal["primary"])
        n = len(items)
        max_w = LARGURA_DXA - 900
        for i, item in enumerate(items):
            # Cada nível fica mais largo (proporção crescente)
            level_w = int(max_w * (0.4 + 0.6 * i / max(n-1, 1)))
            margin_l = (max_w - level_w) // 2
            inner = bc.add_table(rows=1, cols=1)
            inner.alignment = WD_TABLE_ALIGNMENT.CENTER
            c = inner.cell(0, 0)
            set_width(c, level_w)
            # Gradiente de cores: topo=primário, base=terciário
            frac = i / max(n-1, 1)
            r1, g1, b1 = hex_to_rgb(pal["primary"])
            r2, g2, b2 = hex_to_rgb(pal["tertiary"])
            bg = rgb_to_hex(r1+(r2-r1)*frac, g1+(g2-g1)*frac, b1+(b2-b1)*frac)
            set_shading(c, bg)
            brd = (bg, "4")
            set_borders(c, brd, brd, brd, brd)
            set_valign(c); set_margins(c, 40, 40, 80, 80)
            c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
            txt_color = "FFFFFF" if frac < 0.5 else pal["primary_dark"]
            fmt(c.paragraphs[0], str(item), bold=True, size=TAM_SMALL, color=txt_color)
        _fill_cell_blank_lines(bc, max(1, 10 - n))

    # === CICLO (PDCA, melhoria contínua) ===
    elif tipo == "ciclo":
        etapas = conteudo if isinstance(conteudo, list) else [conteudo]
        fmt(bc.paragraphs[0], f"\u25b8  {titulo}", bold=True, size=TAM_CORPO, color=pal["primary"])
        n = len(etapas)
        # Layout em grid 2x2 ou linear
        if n == 4:
            inner = bc.add_table(rows=2, cols=2)
            inner.alignment = WD_TABLE_ALIGNMENT.CENTER
            positions = [(0,0),(0,1),(1,1),(1,0)]  # Sentido horário
            colors = [pal["primary"], lighten(pal["primary"],0.15),
                      lighten(pal["primary"],0.30), lighten(pal["primary"],0.45)]
            bw = (LARGURA_DXA - 900) // 2
            for idx, (r,c_idx) in enumerate(positions):
                c = inner.cell(r, c_idx); set_width(c, bw); set_valign(c)
                set_shading(c, colors[idx])
                brd = (colors[idx], "4")
                set_borders(c, brd, brd, brd, brd)
                set_margins(c, 50, 50, 80, 80)
                c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                fmt(c.paragraphs[0], etapas[idx], bold=True, size=TAM_SMALL, color="FFFFFF")
            # Setas no centro
            p_arrow = bc.add_paragraph()
            p_arrow.alignment = WD_ALIGN_PARAGRAPH.CENTER
            fmt(p_arrow, "\u21bb  Ciclo Cont\u00ednuo", bold=True, size=TAM_SMALL, color=pal["primary"])
        else:
            cpr = min(n, 4); rows_n = (n+cpr-1)//cpr
            bw = (LARGURA_DXA - 900) // cpr
            inner = bc.add_table(rows=rows_n, cols=cpr)
            inner.alignment = WD_TABLE_ALIGNMENT.CENTER
            for idx, et in enumerate(etapas):
                r, ci2 = divmod(idx, cpr)
                c = inner.cell(r, ci2); set_width(c, bw); set_valign(c)
                bg = pal["primary"] if idx % 2 == 0 else lighten(pal["primary"], 0.20)
                set_shading(c, bg)
                brd = (bg, "4")
                set_borders(c, brd, brd, brd, brd)
                set_margins(c, 40, 40, 60, 60)
                c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                fmt(c.paragraphs[0], et, bold=True, size=TAM_TINY, color="FFFFFF")
        _fill_cell_blank_lines(bc, 10)

    # === MISTO ===
    elif tipo == "misto":
        bc.paragraphs[0].text = ""
        elementos = conteudo if isinstance(conteudo, list) else [conteudo]
        for elem in elementos:
            if isinstance(elem, str):
                pe = bc.add_paragraph(); fmt(pe, elem, size=TAM_CORPO, color="1A1A1A")
            elif isinstance(elem, dict):
                st = elem.get("tipo", "texto")
                if st == "texto":
                    pe = bc.add_paragraph(); fmt(pe, elem.get("conteudo",""), size=TAM_CORPO, color="1A1A1A")
                elif st == "checklist":
                    pe = bc.add_paragraph()
                    fmt(pe, f"\n\u25b8  {elem.get('titulo','')}", bold=True, size=TAM_CORPO, color=pal["primary"])
                    for it in elem.get("itens", []):
                        pi = bc.add_paragraph(); pi.paragraph_format.left_indent = Cm(0.5)
                        fmt(pi, "\u2713  ", bold=True, size=TAM_SMALL, color=pal["primary"])
                        fmt(pi, it, size=TAM_SMALL, color="1A1A1A")
                elif st == "processo":
                    pe = bc.add_paragraph()
                    fmt(pe, f"\n\u25b8  {elem.get('titulo','')}", bold=True, size=TAM_CORPO, color=pal["primary"])
                    for i, et in enumerate(elem.get("etapas",[]), 1):
                        pi = bc.add_paragraph(); pi.paragraph_format.left_indent = Cm(0.5)
                        fmt(pi, f"{i}.  ", bold=True, size=TAM_SMALL, color=pal["primary"])
                        fmt(pi, et, size=TAM_SMALL, color="1A1A1A")
                elif st == "tabela":
                    pe = bc.add_paragraph()
                    fmt(pe, f"\n\u25b8  {elem.get('titulo','')}", bold=True, size=TAM_CORPO, color=pal["primary"])
                    hdrs = elem.get("colunas",[]); rws = elem.get("linhas",[])
                    if hdrs and rws:
                        nc2 = len(hdrs); cw2 = (LARGURA_DXA - 900) // nc2
                        it2 = bc.add_table(rows=1+len(rws), cols=nc2)
                        for i, h in enumerate(hdrs):
                            cc2 = it2.cell(0,i); set_shading(cc2, pal["primary"])
                            set_width(cc2,cw2); set_valign(cc2); set_margins(cc2,30,30,50,50)
                            set_borders(cc2,(pal["primary"],"3"),(pal["primary"],"3"),
                                       (pal["primary"],"3"),(pal["primary"],"3"))
                            cc2.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                            fmt(cc2.paragraphs[0], h, bold=True, size=TAM_TINY, color="FFFFFF")
                        for ri2, rd2 in enumerate(rws):
                            for ci2, v2 in enumerate(rd2):
                                cc2 = it2.cell(ri2+1,ci2); set_width(cc2,cw2); set_valign(cc2)
                                set_margins(cc2,25,25,50,50)
                                set_borders(cc2,(pal["gray_border"],"1"),(pal["gray_border"],"1"),
                                           (pal["gray_border"],"1"),(pal["gray_border"],"1"))
                                cc2.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                                fmt(cc2.paragraphs[0], str(v2), size=TAM_TINY, color="1A1A1A")
                            if ri2 % 2 == 0:
                                for ci2 in range(nc2): set_shading(it2.cell(ri2+1,ci2), pal["tertiary"])
        _fill_cell_blank_lines(bc, 4)

    # === GLOSSÁRIO / SÍMBOLOS ===
    elif tipo in ("glossario", "glossário", "simbolos", "símbolos", "glossario_visual"):
        bc.paragraphs[0].text = ""
        if isinstance(conteudo, list):
            if len(conteudo) > 0 and isinstance(conteudo[0], dict):
                # Formato tabela: [{colunas:..., linhas:...}] ou [{simbolo:..., nome:...}]
                tbl_obj = conteudo[0]
                if "colunas" in tbl_obj:
                    headers = tbl_obj.get("colunas", [])
                    rows_data = tbl_obj.get("linhas", [])
                    if headers and rows_data:
                        nc = len(headers); cw_each = (LARGURA_DXA - 900) // nc
                        inner = bc.add_table(rows=1+len(rows_data), cols=nc)
                        for i, h in enumerate(headers):
                            c = inner.cell(0, i); set_shading(c, pal["primary"])
                            set_width(c, cw_each); set_valign(c); set_margins(c, 40, 40, 60, 60)
                            set_borders(c,(pal["primary"],"4"),(pal["primary"],"4"),(pal["primary"],"4"),(pal["primary"],"4"))
                            c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                            fmt(c.paragraphs[0], h, bold=True, size=TAM_SMALL, color="FFFFFF")
                        for ri, rd in enumerate(rows_data):
                            for ci, val in enumerate(rd):
                                c = inner.cell(ri+1, ci); set_width(c, cw_each); set_valign(c)
                                set_margins(c, 30, 30, 60, 60)
                                set_borders(c,(pal["gray_border"],"1"),(pal["gray_border"],"1"),
                                            (pal["gray_border"],"1"),(pal["gray_border"],"1"))
                                c.paragraphs[0].alignment = WD_ALIGN_PARAGRAPH.CENTER
                                fmt(c.paragraphs[0], str(val), size=TAM_SMALL, color="1A1A1A")
                            if ri % 2 == 0:
                                for ci in range(nc): set_shading(inner.cell(ri+1, ci), pal["tertiary"])
                else:
                    # Formato dict simples: [{simbolo: "⚠", nome: "Atenção"}, ...]
                    for item in conteudo:
                        pi = bc.add_paragraph()
                        pi.paragraph_format.left_indent = Cm(0.5)
                        simb = item.get("simbolo", item.get("icone", "●"))
                        nome = item.get("nome", item.get("descricao", str(item)))
                        fmt(pi, f"{simb}  {nome}", size=TAM_CORPO, color="1A1A1A")
            else:
                # Formato lista simples de strings: "⚠  Atenção" (símbolo + 2 espaços + nome)
                for item in conteudo:
                    pi = bc.add_paragraph()
                    pi.paragraph_format.left_indent = Cm(0.5)
                    fmt(pi, str(item), size=TAM_CORPO, color="1A1A1A")
        _fill_cell_blank_lines(bc, max(1, 10 - len(conteudo) if isinstance(conteudo, list) else 10))

    # === TEXTO / FALLBACK ===
    else:
        if isinstance(conteudo, str):
            fmt(bc.paragraphs[0], conteudo, size=TAM_CORPO, color="1A1A1A")
        elif isinstance(conteudo, list):
            bc.paragraphs[0].text = ""
            for item in conteudo:
                pi = bc.add_paragraph(); fmt(pi, f"\u25cf  {item}", size=TAM_CORPO, color="1A1A1A")
        _fill_cell_blank_lines(bc, 12)


# ============================================================
# GERADOR PRINCIPAL
# ============================================================

def gerar_pop_docx(json_str, primary_color=None, logo_bytes=None, palette_overrides=None):
    data = json.loads(json_str)
    meta = data.get("metadata", {})
    secoes = data.get("secoes", {})
    pal = build_palette(parse_color_input(primary_color))
    # Aplicar overrides individuais de cor
    if palette_overrides:
        for k, v in palette_overrides.items():
            if v and v.strip():
                pal[k] = parse_color_input(v)

    doc = Document()
    style = doc.styles["Normal"]
    style.font.name = FONTE; style.font.size = TAM_CORPO
    style.font.color.rgb = RGBColor.from_string("1A1A1A")
    style.paragraph_format.space_after = Pt(4); style.paragraph_format.line_spacing = 1.15

    sec = doc.sections[0]
    sec.page_width = Cm(21); sec.page_height = Cm(29.7)
    sec.top_margin = MARGEM_SUP; sec.bottom_margin = MARGEM_INF
    sec.left_margin = MARGEM_ESQ; sec.right_margin = MARGEM_DIR

    build_header(sec, meta, pal, logo_bytes)
    build_footer(sec, meta, pal)

    if doc.paragraphs and doc.paragraphs[0].text == "":
        doc.paragraphs[0]._element.getparent().remove(doc.paragraphs[0]._element)

    # Seções
    sn = 1
    add_h1(doc, sn, "OBJETIVO / FINALIDADE", pal)
    # Remover space_before do primeiro H1 (margem superior já cuida do espaço)
    doc.paragraphs[0].paragraph_format.space_before = Pt(0)
    add_body(doc, secoes.get("objetivo", "[Objetivo não fornecido]"))

    sn += 1; add_h1(doc, sn, "CAMPO DE APLICAÇÃO / ÁREA", pal)
    add_body(doc, secoes.get("campo_aplicacao", "[Campo não fornecido]"))

    sn += 1; add_h1(doc, sn, "CONCEITOS E DEFINIÇÕES", pal)
    for it in secoes.get("conceitos", []):
        if isinstance(it, dict): add_def_item(doc, it.get("termo",""), it.get("definicao",""), pal)
        else: add_bullet(doc, str(it), pal=pal)

    sn += 1; add_h1(doc, sn, "RESPONSABILIDADES E COMPETÊNCIAS", pal)
    for it in secoes.get("responsabilidades", []):
        if isinstance(it, dict):
            add_bullet(doc, it.get("acoes",""), bold_prefix=f"{it.get('papel','')}:  ", pal=pal)
        else: add_bullet(doc, str(it), pal=pal)

    sn += 1; add_h1(doc, sn, "RECURSOS NECESSÁRIOS (MATERIAIS E EQUIPAMENTOS)", pal)
    for it in secoes.get("recursos", []):
        add_bullet(doc, str(it), pal=pal)

    sn += 1; add_h1(doc, sn, "DESCRIÇÃO DO PROCEDIMENTO (PASSO A PASSO)", pal)
    proc = secoes.get("procedimento", {})
    sub = 1
    add_h2(doc, f"{sn}.{sub}", "Ações Iniciais e Preparo", pal)
    for i, p in enumerate(proc.get("acoes_iniciais",[]), 1): _render_passo(doc, i, p, pal)
    sub += 1; add_h2(doc, f"{sn}.{sub}", "Execução Técnica", pal)
    for i, p in enumerate(proc.get("execucao_tecnica",[]), 1): _render_passo(doc, i, p, pal)
    sub += 1; add_h2(doc, f"{sn}.{sub}", "Ações Finais e Organização", pal)
    for i, p in enumerate(proc.get("acoes_finais",[]), 1): _render_passo(doc, i, p, pal)

    sn += 1; add_h1(doc, sn, "GERENCIAMENTO DE RISCO E PONTOS CRÍTICOS", pal)
    riscos = secoes.get("riscos", {})
    add_h2(doc, f"{sn}.1", "Riscos Assistenciais", pal)
    # Ordenar riscos: Crítico primeiro, Moderado depois, demais por último
    riscos_list = riscos.get("assistenciais", [])
    def _risk_sort_key(it):
        r = it.get("risco","").lower() if isinstance(it, dict) else str(it).lower()
        if "crít" in r or "crit" in r: return 0
        if "moder" in r: return 1
        return 2
    riscos_list = sorted(riscos_list, key=_risk_sort_key)
    for it in riscos_list:
        if isinstance(it, dict): add_risk(doc, it.get("risco",""), it.get("barreira",""), pal)
        else: add_bullet(doc, str(it), pal=pal)
    add_h2(doc, f"{sn}.2", "Plano de Contingência", pal)
    # Caixa de destaque com borda lateral vermelha
    cont_raw = riscos.get("contingencia","[Contingência não fornecida]")
    # Normalizar: str → lista de 1 item
    if isinstance(cont_raw, str):
        cont_items = [cont_raw]
    elif isinstance(cont_raw, list):
        cont_items = cont_raw
    else:
        cont_items = [str(cont_raw)]
    cont_tbl = doc.add_table(rows=1, cols=1)
    cont_tbl.alignment = WD_TABLE_ALIGNMENT.CENTER
    cc = cont_tbl.cell(0, 0)
    set_width(cc, LARGURA_DXA - 200)
    set_margins(cc, 80, 80, 200, 200)
    set_borders(cc, (pal["risk_red"],"12"), (pal["gray_border"],"1"), (pal["gray_border"],"1"), (pal["gray_border"],"1"))
    set_shading(cc, "FFF3E0")
    # Título
    pt = cc.paragraphs[0]
    pt.paragraph_format.space_after = Pt(8)
    fmt(pt, "\u26a0  ATEN\u00c7\u00c3O \u2014 Plano de Conting\u00eancia", bold=True, size=TAM_CORPO, color=pal["risk_red"])
    # Itens numerados: conceito bold + ":" + ações com seta
    for idx, item_c in enumerate(cont_items, 1):
        pi = cc.add_paragraph()
        pi.alignment = WD_ALIGN_PARAGRAPH.JUSTIFY
        pi.paragraph_format.line_spacing = 1.15
        pi.paragraph_format.left_indent = Cm(0.5)
        pi.paragraph_format.space_before = Pt(3)
        pi.paragraph_format.space_after = Pt(3)
        # Número bold + cor risk_red
        fmt(pi, f"{idx}. ", bold=True, size=TAM_SMALL, color=pal["risk_red"])
        # Limpar texto: remover prefixos "→ " ou "1. " que o Gemini pode ter adicionado
        txt = str(item_c).strip()
        import re
        txt = re.sub(r'^\d+\.\s*', '', txt)  # Remove "1. " prefix
        txt = re.sub(r'^[\u2192→]\s*', '', txt)  # Remove "→ " prefix
        # Separar conceito (antes do primeiro ":") do resto
        if ':' in txt:
            conceito, resto = txt.split(':', 1)
            # Strip markdown bold markers **
            conceito = conceito.replace('**', '').strip()
            fmt(pi, conceito + ":", bold=True, size=TAM_SMALL, color="1A1A1A")
            # Formatar setas com espaçamento
            resto = resto.strip()
            # Normalizar setas: garantir "  →  " com espaços
            resto = re.sub(r'\s*[\u2192→]\s*', '  \u2192  ', resto)
            fmt_with_meta_badges(pi, " " + resto, size=TAM_SMALL, pal=pal)
        else:
            fmt_with_meta_badges(pi, txt, size=TAM_SMALL, pal=pal)

    sn += 1; add_h1(doc, sn, "REGISTROS DA QUALIDADE (EVIDÊNCIAS)", pal)
    add_body(doc, "A execução deste procedimento e eventuais intercorrências devem ser "
                  "obrigatoriamente documentadas nos seguintes registros para rastreabilidade e auditoria:")
    for it in secoes.get("registros",[]): add_bullet(doc, str(it), pal=pal)

    sn += 1; add_h1(doc, sn, "INDICADORES DE MONITORAMENTO", pal)
    add_body(doc, "A eficácia da adesão a este POP será medida através dos seguintes indicadores institucionais:")
    inds = secoes.get("indicadores", [])
    if inds and isinstance(inds[0], dict) and "meta" in inds[0]:
        add_table(doc, ["Indicador","Meta","Periodicidade"],
                  [[i.get("nome",""),i.get("meta",""),i.get("periodicidade","")] for i in inds],
                  [5157,2400,1800], pal)
    else:
        for it in inds: add_bullet(doc, str(it), pal=pal)

    sn += 1; add_h1(doc, sn, "REFERÊNCIAS BIBLIOGRÁFICAS / NORMATIVAS", pal)
    for i, ref in enumerate(secoes.get("referencias",[]), 1):
        add_num(doc, i, str(ref), indent=IND_ITEM, pal=pal)

    sn += 1; add_h1(doc, sn, "ANEXOS / FLUXOGRAMAS", pal)
    anexos = secoes.get("anexos", [])
    if anexos:
        for idx, it in enumerate(anexos, 1):
            nome = it.get("titulo", it) if isinstance(it, dict) else str(it)
            add_bullet(doc, f"Anexo {idx}:  {nome}", pal=pal)
    else:
        add_body(doc, "Não há anexos vinculados a este POP nesta versão.")

    sn += 1; add_h1(doc, sn, "HISTÓRICO DE REVISÕES", pal)
    revs = secoes.get("historico_revisoes", [])
    if revs:
        add_table(doc, ["Versão","Data","Descrição da Alteração","Responsável"],
                  [[r.get("versao",""),r.get("data",""),r.get("descricao",""),r.get("responsavel","")] for r in revs],
                  [1000,1200,5557,1600], pal)

    # Anexos completos
    if anexos:
        for idx, anx in enumerate(anexos, 1):
            render_annex(doc, anx, idx, pal)

    titulo_safe = meta.get("titulo_processo","POP").replace(" ","_").replace("/","-")
    codigo = meta.get("codigo","POP-XXX-001")
    fp = os.path.join(tempfile.gettempdir(), f"{codigo}_{titulo_safe}.docx")
    doc.save(fp)
    return fp


# ============================================================
# VALIDADOR
# ============================================================

def validar(json_str):
    try: data = json.loads(json_str)
    except json.JSONDecodeError as e: return False, f"❌ JSON inválido: {e}", None
    erros, avisos = [], []
    if "metadata" not in data: erros.append("'metadata' ausente")
    else:
        for c in ["titulo_processo","codigo","versao","setor"]:
            if not data["metadata"].get(c): erros.append(f"metadata.{c} vazio")
    if "secoes" not in data: erros.append("'secoes' ausente")
    else:
        for s in ["objetivo","campo_aplicacao","conceitos","responsabilidades","recursos",
                  "procedimento","riscos","registros","indicadores","referencias","historico_revisoes"]:
            if s not in data["secoes"]: erros.append(f"Seção '{s}' ausente")
    if erros:
        return False, "❌ ERROS:\n"+"\n".join(f"  • {e}" for e in erros), None
    msg = "✅ JSON válido!"
    if avisos: msg += "\n⚠️ "+"\n".join(avisos)
    return True, msg, data



# ============================================================
# GRADIO FRONTEND
# ============================================================

DEFAULT_UI_COLOR = "283264"

def processar(json_text, json_file, c_pri, c_sec, c_ter, c_zeb, logo_file):
    json_str = ""
    # Prioridade 1: arquivo anexo
    if json_file is not None:
        try:
            fpath = json_file.name if hasattr(json_file, 'name') else json_file
            with open(fpath, "r", encoding="utf-8") as f: json_str = f.read()
        except Exception as e:
            return None, f"\u274c {e}", None
    # Prioridade 2: texto colado
    if not json_str.strip():
        json_str = json_text or ""
    if not json_str.strip():
        return None, "\u26a0\ufe0f Insira o c\u00f3digo.", None
    jc = json_str.strip()
    # Remover backticks de codeblock markdown (```json ... ```)
    if jc.startswith("```"):
        jc = jc.split("\n",1)[1] if "\n" in jc else jc[3:]
        jc = jc.strip()
    if jc.startswith("json"):
        jc = jc[4:].strip()
    if jc.endswith("```"):
        jc = jc[:-3].strip()
    ok, msg, data = validar(jc)
    if not ok: return None, msg, None
    pri = parse_color_input(c_pri) if c_pri else DEFAULT_UI_COLOR
    pal = build_palette(pri)
    if c_sec and c_sec.strip(): pal["secondary"] = parse_color_input(c_sec)
    if c_ter and c_ter.strip(): pal["tertiary"] = parse_color_input(c_ter)
    if c_zeb and c_zeb.strip(): pal["quaternary"] = parse_color_input(c_zeb)
    logo_bytes = None
    if logo_file is not None:
        try:
            lp = logo_file if isinstance(logo_file, str) else (logo_file.name if hasattr(logo_file,'name') else None)
            if lp and os.path.exists(lp):
                with open(lp, "rb") as f: logo_bytes = f.read()
        except: pass
    try:
        overrides = {}
        if c_sec and c_sec.strip(): overrides["secondary"] = c_sec
        if c_ter and c_ter.strip(): overrides["tertiary"] = c_ter
        if c_zeb and c_zeb.strip(): overrides["quaternary"] = c_zeb
        fp = gerar_pop_docx(jc, pri, logo_bytes, palette_overrides=overrides)
        meta = data.get("metadata",{})
        info = "\u2705  POP gerado com sucesso!"
        return fp, info, meta
    except Exception as e:
        return None, f"\u274c {str(e)}", None


def criar_interface():
    import gradio as gr

    TITLE_COLOR = "#9ab4d2"
    init_pal = build_palette(DEFAULT_UI_COLOR)

    APP_CSS = f"""
        .gradio-container {{ max-width: 1200px !important; }}
        #pop-hex-pri, #pop-hex-sec, #pop-hex-ter, #pop-hex-zeb {{
            height: 0 !important; overflow: hidden !important;
            margin: 0 !important; padding: 0 !important;
        }}
        #color-state-row {{
            height: 0 !important; overflow: hidden !important;
            margin: 0 !important; padding: 0 !important; gap: 0 !important;
        }}
        #json-paste textarea {{
            min-height: 120px !important; height: 120px !important; overflow-y: auto !important;
        }}
        .upload-container span {{ font-size: 10px !important; }}
        .upload-container {{ min-height: 130px !important; }}
        h1, h3 {{ color: {TITLE_COLOR} !important; }}
        .left-col {{ flex-shrink: 0 !important; }}
        .step3-row {{ flex-wrap: nowrap !important; }}
        .step3-row > div {{ min-width: 0 !important; }}
        .landing-title {{ text-align: center; margin-top: 60px; margin-bottom: 0; }}
        .landing-title h1 {{ font-size: 2.2em !important; margin-bottom: 0 !important; padding-bottom: 0 !important; }}
        .landing-sub {{ text-align: center; color: #9ab4d2 !important; font-size: 0.95em;
            margin-top: 8px; position: relative; z-index: 10; }}
        .landing-steps {{ margin-top: 40px; }}
        .step-card {{ text-align: center; padding: 10px; }}
        .step-card button {{ min-height: 80px !important; white-space: normal !important;
            line-height: 1.4 !important; padding: 16px 20px !important;
            background: #283264 !important; border-color: #283264 !important; color: #fff !important; }}
        .step-card button:hover {{ background: #3a4a8a !important; border-color: #3a4a8a !important; }}
        .btn-voltar {{ position: absolute; right: 16px; top: 8px; z-index: 100; }}
    """

    with gr.Blocks(title="\u2622\ufe0e RADIOTERAPIA.AI - POP de elite") as demo:

        # ══════════════════════════════════════
        # LANDING PAGE
        # ══════════════════════════════════════
        with gr.Column(visible=True) as landing_page:
            gr.HTML("""
            <div style="text-align:center; margin-top:50px;">
              <img 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" alt="radioterapia.ai"
                   id="rt-landing-logo" style="height:130px; border-radius:12px; display:block; margin:0 auto;">
              <div id="rt-pop-sub" style="margin-top:16px; font-size:1.3em; font-weight:600; letter-spacing:3px;">\u2014 POP de Elite \u2014</div>
              <div style="margin-top:8px; font-size:0.9em; opacity:0.55;">por: Braga, HF.</div>
            </div>
            <style>
              #rt-landing-logo { filter: invert(0.88) hue-rotate(180deg) brightness(1.5) contrast(0.85); }
              #rt-pop-sub { color: #283264; }
              .dark #rt-landing-logo { filter: none; }
              .dark #rt-pop-sub { color: #9ab4d2; }
            </style>
            """)

            gr.HTML("<div style='height:40px;'></div>")

            with gr.Row(elem_classes="landing-steps"):
                with gr.Column(scale=1, elem_classes="step-card"):
                    btn_passo1 = gr.Button(
                        "\U0001f4ac  Passo 1: Clique aqui primeiro, passe sua demanda e receba o conte\u00fado do POP (em c\u00f3digo) com o nosso Agente Conselheiro da Qualidade.",
                        variant="primary", size="lg")
                with gr.Column(scale=1, elem_classes="step-card"):
                    btn_passo2 = gr.Button(
                        "\U0001f4c4  Passo 2: Depois de receber o c\u00f3digo, clique aqui para montar o POP e receber o documento final",
                        variant="primary", size="lg")

        # ══════════════════════════════════════
        # APP PRINCIPAL (começa oculto)
        # ══════════════════════════════════════
        with gr.Column(visible=False) as main_app:
            with gr.Row():
                gr.HTML("""<div>
                  <img 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" alt="radioterapia.ai"
                       id="rt-hdr-logo" style="height:40px; border-radius:6px;">
                  <br>
                  <div id="rt-hdr-sub" style="font-size:0.9em; font-weight:600; letter-spacing:1px; margin-top:4px;">\u2014 POP de Elite \u2014</div>
                  <div style="font-size:0.75em; opacity:0.5; margin-top:2px;">por: Braga, HF.</div>
                </div>
                <style>
                  #rt-hdr-logo { filter: invert(0.88) hue-rotate(180deg) brightness(1.5) contrast(0.85); }
                  #rt-hdr-sub { color: #283264; }
                  .dark #rt-hdr-logo { filter: none; }
                  .dark #rt-hdr-sub { color: #9ab4d2; }
                </style>""")
                btn_voltar = gr.Button("\u2190  Voltar", size="sm", variant="secondary", elem_classes="btn-voltar")
            gr.Markdown("---")

            with gr.Row():

                # ══════════════ COLUNA ESQUERDA ══════════════
                with gr.Column(scale=3, min_width=580, elem_classes="left-col"):
    
                    # ── ETAPA 1: LOGO (compacto) ──
                    gr.Markdown("### \U0001f5bc\ufe0e  Etapa 2.1 \u2014 Logotipo institucional *(opcional)*")
                    logo_input = gr.Image(
                        type="filepath", sources=["upload"],
                        height=130, show_label=False
                    )
    
                    gr.Markdown("---")
    
                    # ── ETAPA 2: CORES (4 boxes clicáveis) ──
                    gr.Markdown("### \U0001f3a8\ufe0e  Etapa 2.2 \u2014 Paleta de cores")
                    with gr.Row(elem_id="color-state-row"):
                        color_pri = gr.Textbox(value=f"#{init_pal['primary']}", elem_id="pop-hex-pri", show_label=False, container=False)
                        color_sec = gr.Textbox(value="", elem_id="pop-hex-sec", show_label=False, container=False)
                        color_ter = gr.Textbox(value="", elem_id="pop-hex-ter", show_label=False, container=False)
                        color_zeb = gr.Textbox(value="", elem_id="pop-hex-zeb", show_label=False, container=False)
    
                    gr.HTML(f"""
                    <div style="display:flex; gap:6px; height:50px; position:relative;" id="color-boxes">
                      <input type="color" id="cpick-pri" value="#{init_pal['primary']}"
                        style="position:absolute;opacity:0;width:0;height:0;"
                        oninput="
                          var v=this.value, hex=v.replace('#','');
                          document.getElementById('cbox-pri').style.background=v;
                          document.getElementById('cbox-pri').querySelector('span').innerHTML='Prim\\u00e1ria<br>'+v.toUpperCase();
                          var t=document.querySelector('#pop-hex-pri textarea')||document.querySelector('#pop-hex-pri input');
                          if(t){{t.value=v;t.dispatchEvent(new Event('input',{{bubbles:true}}));}}
                          var r=parseInt(hex.substr(0,2),16),g=parseInt(hex.substr(2,2),16),b=parseInt(hex.substr(4,2),16);
                          function mx(c,p){{return Math.min(255,Math.max(0,Math.round(c+(255-c)*p)));}}
                          function th(r,g,b){{return '#'+[r,g,b].map(x=>x.toString(16).padStart(2,'0')).join('').toUpperCase();}}
                          var cs=th(mx(r,.45),mx(g,.45),mx(b,.45));
                          var ct=th(mx(r,.70),mx(g,.70),mx(b,.70));
                          var cz=th(mx(r,.85),mx(g,.85),mx(b,.85));
                          [['sec',cs,'Secund\\u00e1ria'],['ter',ct,'Terci\\u00e1ria'],['zeb',cz,'Zebra']].forEach(function(x){{
                            document.getElementById('cbox-'+x[0]).style.background=x[1];
                            document.getElementById('cbox-'+x[0]).querySelector('span').innerHTML=x[2]+'<br>'+x[1];
                            document.getElementById('cpick-'+x[0]).value=x[1];
                            var t2=document.querySelector('#pop-hex-'+x[0]+' textarea')||document.querySelector('#pop-hex-'+x[0]+' input');
                            if(t2){{t2.value=x[1];t2.dispatchEvent(new Event('input',{{bubbles:true}}));}}
                          }});
                        ">
                      <div id="cbox-pri" onclick="document.getElementById('cpick-pri').click();"
                        style="flex:1;background:#{init_pal['primary']};border-radius:6px;cursor:pointer;
                               display:flex;align-items:center;justify-content:center;border:2px solid #444;">
                        <span style="color:#fff;font-size:9px;font-weight:bold;text-align:center;pointer-events:none;">
                          Prim\u00e1ria<br>#{init_pal['primary']}</span></div>
    
                      <input type="color" id="cpick-sec" value="#{init_pal['secondary']}"
                        style="position:absolute;opacity:0;width:0;height:0;"
                        oninput="var v=this.value;document.getElementById('cbox-sec').style.background=v;
                          document.getElementById('cbox-sec').querySelector('span').innerHTML='Secund\\u00e1ria<br>'+v.toUpperCase();
                          var t=document.querySelector('#pop-hex-sec textarea')||document.querySelector('#pop-hex-sec input');
                          if(t){{t.value=v;t.dispatchEvent(new Event('input',{{bubbles:true}}));}}">
                      <div id="cbox-sec" onclick="document.getElementById('cpick-sec').click();"
                        style="flex:1;background:#{init_pal['secondary']};border-radius:6px;cursor:pointer;
                               display:flex;align-items:center;justify-content:center;">
                        <span style="color:#{init_pal['text_on_secondary']};font-size:9px;font-weight:bold;text-align:center;pointer-events:none;">
                          Secund\u00e1ria<br>#{init_pal['secondary']}</span></div>
    
                      <input type="color" id="cpick-ter" value="#{init_pal['tertiary']}"
                        style="position:absolute;opacity:0;width:0;height:0;"
                        oninput="var v=this.value;document.getElementById('cbox-ter').style.background=v;
                          document.getElementById('cbox-ter').querySelector('span').innerHTML='Terci\\u00e1ria<br>'+v.toUpperCase();
                          var t=document.querySelector('#pop-hex-ter textarea')||document.querySelector('#pop-hex-ter input');
                          if(t){{t.value=v;t.dispatchEvent(new Event('input',{{bubbles:true}}));}}">
                      <div id="cbox-ter" onclick="document.getElementById('cpick-ter').click();"
                        style="flex:1;background:#{init_pal['tertiary']};border-radius:6px;cursor:pointer;
                               display:flex;align-items:center;justify-content:center;">
                        <span style="color:#{init_pal['primary_dark']};font-size:9px;font-weight:bold;text-align:center;pointer-events:none;">
                          Terci\u00e1ria<br>#{init_pal['tertiary']}</span></div>
    
                      <input type="color" id="cpick-zeb" value="#{init_pal['quaternary']}"
                        style="position:absolute;opacity:0;width:0;height:0;"
                        oninput="var v=this.value;document.getElementById('cbox-zeb').style.background=v;
                          document.getElementById('cbox-zeb').querySelector('span').innerHTML='Zebra<br>'+v.toUpperCase();
                          var t=document.querySelector('#pop-hex-zeb textarea')||document.querySelector('#pop-hex-zeb input');
                          if(t){{t.value=v;t.dispatchEvent(new Event('input',{{bubbles:true}}));}}">
                      <div id="cbox-zeb" onclick="document.getElementById('cpick-zeb').click();"
                        style="flex:1;background:#{init_pal['quaternary']};border-radius:6px;cursor:pointer;
                               display:flex;align-items:center;justify-content:center;">
                        <span style="color:#{init_pal['primary_dark']};font-size:9px;text-align:center;pointer-events:none;">
                          Zebra<br>#{init_pal['quaternary']}</span></div>
                    </div>
                    """)
    
                    btn_reset_colors = gr.Button("\u21ba  restaurar cores padr\u00e3o", size="sm", variant="secondary")
    
                    gr.Markdown("---")
    
                    # ── ETAPA 3: JSON (lado a lado) ──
                    gr.Markdown("### \U0001f4dd\ufe0e  Etapa 2.3 \u2014 Insira o c\u00f3digo recebido *(upload do arquivo OU cole o c\u00f3digo)*")
                    with gr.Row(equal_height=True, elem_classes="step3-row"):
                        with gr.Column(scale=3):
                            json_file_input = gr.File(
                                file_types=[".json", ".txt"], type="filepath",
                                height=130, show_label=False
                            )
                        with gr.Column(scale=0, min_width=30):
                            gr.HTML('<div style="display:flex;align-items:center;justify-content:center;height:100%;font-weight:700;color:#666;font-size:11px;">OU</div>')
                        with gr.Column(scale=3):
                            json_text_input = gr.Textbox(
                                placeholder='Cole o c\u00f3digo aqui',
                                lines=6, max_lines=6, show_label=False, elem_id="json-paste"
                            )
    
                    # Quando arquivo é carregado, desabilita textbox (mas preserva o valor existente)
                    def toggle_textbox(file, current_text):
                        if file is not None:
                            return gr.Textbox(value=current_text or "", interactive=False,
                                              placeholder='Arquivo carregado \u2014 usando arquivo anexo')
                        return gr.Textbox(value=current_text or "", interactive=True,
                                          placeholder='Cole o c\u00f3digo aqui')
    
                    json_file_input.change(
                        fn=toggle_textbox,
                        inputs=[json_file_input, json_text_input],
                        outputs=[json_text_input]
                    )
    
                    btn_gerar = gr.Button("\U0001f680  GERAR POP (.docx)", variant="primary", size="lg")
                    btn_novo = gr.Button("\U0001f504  Novo POP \u2014 limpar c\u00f3digo", variant="secondary", size="sm")
    
                # ══════════════ COLUNA DIREITA ══════════════
                with gr.Column(scale=2, min_width=280):
                    result_info = gr.Markdown("")
                    btn_download = gr.DownloadButton(
                        "\U0001f4e5  Baixar POP (.docx)", visible=False, variant="primary", size="lg"
                    )
                    preview_gallery = gr.Gallery(
                        label="\u25c4  \u25ba  Preview do documento",
                        columns=1, rows=1, height=320,
                        object_fit="contain", visible=False
                    )
    
        # ═══════════ EVENTOS ═══════════

        def generate_preview_images(docx_path):
            """Converte .docx → PDF → imagens para preview."""
            import subprocess, glob
            try:
                # Converter docx → pdf via LibreOffice
                tmp_dir = tempfile.mkdtemp()
                subprocess.run(
                    ["libreoffice", "--headless", "--convert-to", "pdf",
                     "--outdir", tmp_dir, docx_path],
                    capture_output=True, timeout=30
                )
                pdf_files = glob.glob(os.path.join(tmp_dir, "*.pdf"))
                if not pdf_files:
                    return []
                pdf_path = pdf_files[0]
                # Converter pdf → imagens via pdftoppm
                subprocess.run(
                    ["pdftoppm", "-jpeg", "-r", "150", pdf_path,
                     os.path.join(tmp_dir, "page")],
                    capture_output=True, timeout=30
                )
                imgs = sorted(glob.glob(os.path.join(tmp_dir, "page-*.jpg")))
                return imgs if imgs else []
            except Exception:
                return []

        def on_generate(json_text, json_file, cpri, csec, cter, czeb, logo):
            fp, info, meta = processar(json_text, json_file, cpri, csec, cter, czeb, logo)
            if fp:
                fname = os.path.basename(fp)
                msg = f"\u2705  POP gerado com sucesso!\n\n`{fname}`"
                imgs = generate_preview_images(fp)
                if imgs:
                    return (msg, gr.DownloadButton(value=fp, visible=True),
                            gr.Gallery(value=imgs, visible=True),
                            gr.Button("\U0001f680  GERAR POP (.docx)", interactive=True))
                return (msg, gr.DownloadButton(value=fp, visible=True),
                        gr.Gallery(visible=False),
                        gr.Button("\U0001f680  GERAR POP (.docx)", interactive=True))
            return (info or "\u26a0\ufe0f Erro", gr.DownloadButton(visible=False),
                    gr.Gallery(visible=False),
                    gr.Button("\U0001f680  GERAR POP (.docx)", interactive=True))

        def on_start_generate():
            return ("\u23f3  *Redigindo o POP, aguarde...*",
                    gr.DownloadButton(visible=False),
                    gr.Gallery(visible=False),
                    gr.Button("\u23f3  Redigindo...", variant="secondary", interactive=False))

        btn_gerar.click(
            fn=on_start_generate,
            outputs=[result_info, btn_download, preview_gallery, btn_gerar]
        ).then(
            fn=on_generate,
            inputs=[json_text_input, json_file_input, color_pri, color_sec, color_ter, color_zeb, logo_input],
            outputs=[result_info, btn_download, preview_gallery, btn_gerar]
        )

        def on_novo():
            return "", None, "", gr.DownloadButton(visible=False), gr.Gallery(visible=False)

        btn_novo.click(
            fn=on_novo,
            outputs=[json_text_input, json_file_input, result_info, btn_download, preview_gallery]
        )

        # Reset cores para padrão
        def on_reset_colors():
            p = build_palette(DEFAULT_UI_COLOR)
            return f"#{p['primary']}", "", "", ""

        btn_reset_colors.click(
            fn=on_reset_colors,
            outputs=[color_pri, color_sec, color_ter, color_zeb],
            js=f"""() => {{
                var p = '{init_pal["primary"]}', s = '{init_pal["secondary"]}',
                    t = '{init_pal["tertiary"]}', z = '{init_pal["quaternary"]}';
                var d = '{init_pal["primary_dark"]}', ts = '{init_pal["text_on_secondary"]}';
                document.getElementById('cbox-pri').style.background='#'+p;
                document.getElementById('cbox-pri').querySelector('span').innerHTML='Prim\\u00e1ria<br>#'+p;
                document.getElementById('cpick-pri').value='#'+p;
                document.getElementById('cbox-sec').style.background='#'+s;
                document.getElementById('cbox-sec').querySelector('span').innerHTML='Secund\\u00e1ria<br>#'+s;
                document.getElementById('cpick-sec').value='#'+s;
                document.getElementById('cbox-ter').style.background='#'+t;
                document.getElementById('cbox-ter').querySelector('span').innerHTML='Terci\\u00e1ria<br>#'+t;
                document.getElementById('cpick-ter').value='#'+t;
                document.getElementById('cbox-zeb').style.background='#'+z;
                document.getElementById('cbox-zeb').querySelector('span').innerHTML='Zebra<br>#'+z;
                document.getElementById('cpick-zeb').value='#'+z;
            }}"""
        )

        # ═══════════ NAVEGA\u00c7\u00c3O LANDING \u2194 APP ═══════════

        # Passo 1: abre URL do Gemini Gem em nova aba
        btn_passo1.click(
            fn=None, inputs=None, outputs=None,
            js="() => { window.open('https://gemini.google.com/gem/c86826a9110d', '_blank'); }"
        )

        # Passo 2: oculta landing, mostra app
        def show_app():
            return gr.Column(visible=False), gr.Column(visible=True)

        btn_passo2.click(fn=show_app, outputs=[landing_page, main_app])

        # Voltar: oculta app, mostra landing
        def show_landing():
            return gr.Column(visible=True), gr.Column(visible=False)

        btn_voltar.click(fn=show_landing, outputs=[landing_page, main_app])

    return demo, APP_CSS

# ══════════════════════════════════════════════════════════════
# INICIAR APLICAÇÃO
# ══════════════════════════════════════════════════════════════

demo, app_css = criar_interface()
demo.launch(debug=False, show_error=True, css=app_css,
            theme=__import__('gradio').themes.Soft(primary_hue="blue"))