from qdrant_client import QdrantClient, models
from streamlit_agraph import Node, Edge
from ui_config import GRAPH_COLORS, get_edge_color, SYSTEM_EDGES

class GraphExplorerService:
    def __init__(self, url, api_key=None, prefix="mindnet"):
        self.client = QdrantClient(url=url, api_key=api_key)
        self.prefix = prefix
        self.notes_col = f"{prefix}_notes"
        self.chunks_col = f"{prefix}_chunks"
        self.edges_col = f"{prefix}_edges"
        self._note_cache = {} 

    def get_ego_graph(self, center_note_id: str, depth=2, show_labels=True):
        """
        Erstellt den Graphen. 
        show_labels=False versteckt die Kantenbeschriftung für mehr Übersicht.
        """
        nodes_dict = {} 
        unique_edges = {} 
        
        # 1. Center Note laden
        center_note = self._fetch_note_cached(center_note_id)
        if not center_note: return [], []
        self._add_node_to_dict(nodes_dict, center_note, level=0)
        
        level_1_ids = {center_note_id}
        
        # Suche Kanten für Center
        l1_edges = self._find_connected_edges([center_note_id], center_note.get("title"))
        
        for edge_data in l1_edges:
            src_id, tgt_id = self._process_edge(edge_data, nodes_dict, unique_edges, current_depth=1)
            if src_id: level_1_ids.add(src_id)
            if tgt_id: level_1_ids.add(tgt_id)

        # Level 2 Suche (begrenzt für Performance)
        if depth > 1 and len(level_1_ids) > 1 and len(level_1_ids) < 60: 
            l1_subset = list(level_1_ids - {center_note_id})
            if l1_subset:
                l2_edges = self._find_connected_edges_batch(l1_subset)
                for edge_data in l2_edges:
                    self._process_edge(edge_data, nodes_dict, unique_edges, current_depth=2)

        # Graphen bauen
        final_edges = []
        for (src, tgt), data in unique_edges.items():
            kind = data['kind']
            prov = data['provenance']
            color = get_edge_color(kind)
            is_smart = (prov != "explicit" and prov != "rule")
            
            # Label Logik: Wenn show_labels False ist, zeigen wir keinen Text an
            label_text = kind if show_labels else " "
            
            final_edges.append(Edge(
                source=src, target=tgt, label=label_text, color=color, dashes=is_smart,
                title=f"Relation: {kind}\nProvenance: {prov}" # Tooltip bleibt immer
            ))

        return list(nodes_dict.values()), final_edges

    def _find_connected_edges(self, note_ids, note_title=None):
        """Findet In- und Outgoing Edges."""
        # Chunks finden
        scroll_filter = models.Filter(
            must=[models.FieldCondition(key="note_id", match=models.MatchAny(any=note_ids))]
        )
        chunks, _ = self.client.scroll(
            collection_name=self.chunks_col, scroll_filter=scroll_filter, limit=200
        )
        chunk_ids = [c.id for c in chunks]
        
        results = []
        
        # --- OUTGOING SEARCH (Quelle = Chunk ODER Note) ---
        # Wir suchen jetzt auch nach der note_id als source_id, falls Edges direkt an der Note hängen
        source_candidates = chunk_ids + note_ids
        
        if source_candidates:
            out_f = models.Filter(must=[
                models.FieldCondition(key="source_id", match=models.MatchAny(any=source_candidates)),
                # FIX: MatchExcept mit **kwargs nutzen wegen 'except' Keyword
                models.FieldCondition(key="kind", match=models.MatchExcept(**{"except": SYSTEM_EDGES}))
            ])
            res_out, _ = self.client.scroll(self.edges_col, scroll_filter=out_f, limit=100, with_payload=True)
            results.extend(res_out)

        # --- INCOMING SEARCH (Ziel = Chunk ODER Title ODER Note) ---
        shoulds = []
        if chunk_ids: shoulds.append(models.FieldCondition(key="target_id", match=models.MatchAny(any=chunk_ids)))
        if note_title: shoulds.append(models.FieldCondition(key="target_id", match=models.MatchValue(value=note_title)))
        # Target = Note ID
        shoulds.append(models.FieldCondition(key="target_id", match=models.MatchAny(any=note_ids)))
        
        if shoulds:
            in_f = models.Filter(
                # FIX: MatchExcept mit **kwargs nutzen wegen 'except' Keyword
                must=[models.FieldCondition(key="kind", match=models.MatchExcept(**{"except": SYSTEM_EDGES}))],
                should=shoulds
            )
            res_in, _ = self.client.scroll(self.edges_col, scroll_filter=in_f, limit=100, with_payload=True)
            results.extend(res_in)
            
        return results

    def _find_connected_edges_batch(self, note_ids):
        """Batch-Suche für Level 2."""
        return self._find_connected_edges(note_ids)

    def _process_edge(self, record, nodes_dict, unique_edges, current_depth):
        payload = record.payload
        src_ref = payload.get("source_id")
        tgt_ref = payload.get("target_id")
        kind = payload.get("kind")
        provenance = payload.get("provenance", "explicit")

        # Resolve
        src_note = self._resolve_note_from_ref(src_ref)
        tgt_note = self._resolve_note_from_ref(tgt_ref)

        if src_note and tgt_note:
            src_id = src_note['note_id']
            tgt_id = tgt_note['note_id']
            
            if src_id != tgt_id:
                # Add Nodes
                self._add_node_to_dict(nodes_dict, src_note, level=current_depth)
                self._add_node_to_dict(nodes_dict, tgt_note, level=current_depth)
                
                # Add Edge (Deduplication Logic)
                key = (src_id, tgt_id)
                existing = unique_edges.get(key)
                
                # Update logic: Explicit > Smart
                should_update = True
                is_current_explicit = (provenance in ["explicit", "rule"])
                if existing:
                    is_existing_explicit = (existing['provenance'] in ["explicit", "rule"])
                    if is_existing_explicit and not is_current_explicit:
                        should_update = False
                
                if should_update:
                    unique_edges[key] = {
                        "source": src_id, "target": tgt_id, "kind": kind, "provenance": provenance
                    }
                return src_id, tgt_id
        return None, None

    def _fetch_note_cached(self, note_id):
        if note_id in self._note_cache: return self._note_cache[note_id]
        res, _ = self.client.scroll(
            collection_name=self.notes_col,
            scroll_filter=models.Filter(must=[models.FieldCondition(key="note_id", match=models.MatchValue(value=note_id))]),
            limit=1, with_payload=True
        )
        if res:
            self._note_cache[note_id] = res[0].payload
            return res[0].payload
        return None

    def _resolve_note_from_ref(self, ref_str):
        if not ref_str: return None
        
        # Fall A: Chunk ID / Section
        if "#" in ref_str:
            try:
                res = self.client.retrieve(self.chunks_col, ids=[ref_str], with_payload=True)
                if res: return self._fetch_note_cached(res[0].payload.get("note_id"))
            except: pass
            possible_note_id = ref_str.split("#")[0]
            if self._fetch_note_cached(possible_note_id): return self._fetch_note_cached(possible_note_id)

        # Fall B: Note ID
        if self._fetch_note_cached(ref_str): return self._fetch_note_cached(ref_str)
        
        # Fall C: Titel
        res, _ = self.client.scroll(
            collection_name=self.notes_col,
            scroll_filter=models.Filter(must=[models.FieldCondition(key="title", match=models.MatchValue(value=ref_str))]),
            limit=1, with_payload=True
        )
        if res:
            self._note_cache[res[0].payload['note_id']] = res[0].payload
            return res[0].payload
        return None

    def _add_node_to_dict(self, node_dict, note_payload, level=1):
        nid = note_payload.get("note_id")
        if nid in node_dict: return
        
        ntype = note_payload.get("type", "default")
        color = GRAPH_COLORS.get(ntype, GRAPH_COLORS["default"])
        
        # HOVER TEXT: Vorschau bauen
        hover_text = f"Titel: {note_payload.get('title')}\nTyp: {ntype}\nTags: {note_payload.get('tags', [])}"
        
        if level == 0: size = 45 
        elif level == 1: size = 25
        else: size = 15

        node_dict[nid] = Node(
            id=nid,
            label=note_payload.get('title', nid),
            size=size,
            color=color,
            shape="dot" if level > 0 else "diamond",
            title=hover_text, # Hover im Browser
            font={'color': 'black', 'face': 'arial', 'size': 14 if level < 2 else 0} 
        )