"""
FILE: app/core/chunking/chunking_strategies.py
DESCRIPTION: Strategien für atomares Sektions-Chunking v3.3.6.
             AUDIT: 100% Konformität zur 'by_heading' Spezifikation.
             - Block-Aware Flushing: Trennung nur an Blockgrenzen.
             - Atomic Section Vorausschau: Verhindert Sektions-Zerreißung.
"""
import math
from typing import List, Dict, Any, Optional
from .chunking_models import RawBlock, Chunk
from .chunking_parser import split_sentences

def _safe_estimate_tokens(text: str) -> int:
    """Konservative Token-Schätzung für deutschen Text (len/3 statt len/4)."""
    return max(1, math.ceil(len(text.strip()) / 3))

def _create_context_win(doc_title: str, sec_title: Optional[str], text: str) -> str:
    """Baut den Breadcrumb-Kontext für das Embedding-Fenster."""
    parts = []
    if doc_title: parts.append(doc_title)
    if sec_title and sec_title != doc_title: parts.append(sec_title)
    prefix = " > ".join(parts)
    return f"{prefix}\n{text}".strip() if prefix else text

def strategy_by_heading(blocks: List[RawBlock], config: Dict[str, Any], note_id: str, doc_title: str = "") -> List[Chunk]:
    """
    Gruppiert Blöcke zu Sektionen und hält diese atomar zusammen.
    Nutzt Block-Aware-Flushing, um Sektionsgrenzen strikt zu wahren.
    """
    strict = config.get("strict_heading_split", False)
    target = config.get("target", 400)
    max_tokens = config.get("max", 600)
    split_level = config.get("split_level", 2)
    overlap_cfg = config.get("overlap", (50, 80))
    overlap = sum(overlap_cfg) // 2 if isinstance(overlap_cfg, (list, tuple)) else overlap_cfg
    
    chunks: List[Chunk] = []
    buf: List[RawBlock] = []

    def _add_chunk(txt, title, path):
        idx = len(chunks)
        win = _create_context_win(doc_title, title, txt)
        chunks.append(Chunk(
            id=f"{note_id}#c{idx:02d}", note_id=note_id, index=idx,
            text=txt, window=win, token_count=_safe_estimate_tokens(txt),
            section_title=title, section_path=path,
            neighbors_prev=None, neighbors_next=None
        ))

    def _flush_buffer():
        nonlocal buf
        if not buf: return
        
        # Block-Aware Processing innerhalb des Puffers
        current_blocks = []
        current_len = 0
        
        for b in buf:
            b_len = _safe_estimate_tokens(b.text)
            
            # Falls dieser Block den aktuellen Chunk sprengen würde -> Vorher abschließen
            if current_len + b_len > max_tokens and current_blocks:
                txt = "\n\n".join([cb.text for cb in current_blocks])
                _add_chunk(txt, current_blocks[0].section_title, current_blocks[0].section_path)
                current_blocks = []
                current_len = 0
            
            # Falls ein einzelner Block alleine zu groß ist (Sliding Window Fallback)
            if b_len > max_tokens:
                if current_blocks: # Vorherigen Rest wegschreiben
                    txt = "\n\n".join([cb.text for cb in current_blocks])
                    _add_chunk(txt, current_blocks[0].section_title, current_blocks[0].section_path)
                    current_blocks = []
                    current_len = 0
                
                # Sätze dieses einen Riesen-Blocks splitten
                sents = split_sentences(b.text)
                cur_sents = []; sub_len = 0
                header_text = b.text if b.kind == "heading" else ""
                
                for s in sents:
                    slen = _safe_estimate_tokens(s)
                    if sub_len + slen > target and cur_sents:
                        _add_chunk(" ".join(cur_sents), b.section_title, b.section_path)
                        # Overlap-Erzeugung & Header-Wiederholung
                        ov_s = [header_text] if header_text else []
                        ov_l = _safe_estimate_tokens(header_text) if header_text else 0
                        for os in reversed(cur_sents):
                            if os == header_text: continue
                            t_len = _safe_estimate_tokens(os)
                            if ov_l + t_len < overlap:
                                ov_s.insert(len(ov_s)-1 if header_text else 0, os)
                                ov_l += t_len
                            else: break
                        cur_sents = list(ov_s); cur_sents.append(s); sub_len = ov_l + slen
                    else: cur_sents.append(s); sub_len += slen
                if cur_sents:
                    _add_chunk(" ".join(cur_sents), b.section_title, b.section_path)
            else:
                current_blocks.append(b)
                current_len += b_len
        
        # Den verbleibenden Rest im Puffer als finalen Chunk schreiben
        if current_blocks:
            txt = "\n\n".join([cb.text for cb in current_blocks])
            _add_chunk(txt, current_blocks[0].section_title, current_blocks[0].section_path)
        
        buf = []

    # SCHRITT 1: Gruppierung in atomare Sektions-Einheiten
    sections: List[List[RawBlock]] = []
    curr_sec: List[RawBlock] = []
    
    for b in blocks:
        if b.kind == "heading" and b.level <= split_level:
            if curr_sec: sections.append(curr_sec)
            curr_sec = [b]
        else:
            curr_sec.append(b)
    if curr_sec: sections.append(curr_sec)

    # SCHRITT 2: Verarbeitung der Sektionen mit Look-Ahead
    for sec in sections:
        sec_text = "\n\n".join([b.text for b in sec])
        sec_tokens = _safe_estimate_tokens(sec_text)
        
        # Aktueller Füllstand des Puffers
        cur_buf_tokens = sum(_safe_estimate_tokens(b.text) for b in buf)
        
        if buf:
            # PRÜFUNG: Wenn die neue Sektion den Puffer über das Limit treibt
            # ODER wenn der Puffer bereits das Ziel-Format erreicht hat
            if (cur_buf_tokens + sec_tokens > max_tokens) or (cur_buf_tokens >= target):
                _flush_buffer()
            # PRÜFUNG: Strikter Split an Überschriften
            elif strict and sec[0].kind == "heading" and sec[0].level == split_level:
                _flush_buffer()
        
        buf.extend(sec)
        
        # Falls eine Riesen-Sektion hinzugefügt wurde, die sofort raus muss
        if sum(_safe_estimate_tokens(b.text) for b in buf) >= max_tokens:
            _flush_buffer()

    _flush_buffer()
    return chunks

def strategy_sliding_window(blocks: List[RawBlock], config: Dict[str, Any], note_id: str, context_prefix: str = "") -> List[Chunk]:
    """Basis-Sliding-Window für flache Texte ohne Sektionsfokus."""
    target = config.get("target", 400)
    max_tokens = config.get("max", 600)
    
    chunks: List[Chunk] = []
    buf: List[RawBlock] = []
    
    for b in blocks:
        b_tokens = _safe_estimate_tokens(b.text)
        current_tokens = sum(_safe_estimate_tokens(x.text) for x in buf) if buf else 0
        
        if current_tokens + b_tokens > max_tokens and buf:
            txt = "\n\n".join([x.text for x in buf])
            idx = len(chunks)
            win = f"{context_prefix}\n{txt}".strip() if context_prefix else txt
            chunks.append(Chunk(
                id=f"{note_id}#c{idx:02d}", note_id=note_id, index=idx, 
                text=txt, window=win, token_count=current_tokens, 
                section_title=buf[0].section_title, section_path=buf[0].section_path, 
                neighbors_prev=None, neighbors_next=None))
            buf = []
            current_tokens = 0
            
        buf.append(b)
        
    if buf:
        txt = "\n\n".join([x.text for x in buf])
        idx = len(chunks)
        win = f"{context_prefix}\n{txt}".strip() if context_prefix else txt
        chunks.append(Chunk(
            id=f"{note_id}#c{idx:02d}", note_id=note_id, index=idx, 
            text=txt, window=win, token_count=_safe_estimate_tokens(txt), 
            section_title=buf[0].section_title, section_path=buf[0].section_path, 
            neighbors_prev=None, neighbors_next=None))
        
    return chunks