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320 lines
12 KiB
320 lines
12 KiB
import itertools |
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from typing import Sequence, Mapping |
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from comfy.graph import DynamicPrompt |
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import nodes |
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from comfy.graph_utils import is_link |
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class CacheKeySet: |
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def __init__(self, dynprompt, node_ids, is_changed_cache): |
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self.keys = {} |
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self.subcache_keys = {} |
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def add_keys(self, node_ids): |
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raise NotImplementedError() |
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def all_node_ids(self): |
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return set(self.keys.keys()) |
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def get_used_keys(self): |
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return self.keys.values() |
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def get_used_subcache_keys(self): |
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return self.subcache_keys.values() |
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def get_data_key(self, node_id): |
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return self.keys.get(node_id, None) |
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def get_subcache_key(self, node_id): |
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return self.subcache_keys.get(node_id, None) |
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class Unhashable: |
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def __init__(self): |
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self.value = float("NaN") |
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def to_hashable(obj): |
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# So that we don't infinitely recurse since frozenset and tuples |
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# are Sequences. |
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if isinstance(obj, (int, float, str, bool, type(None))): |
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return obj |
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elif isinstance(obj, Mapping): |
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return frozenset([(to_hashable(k), to_hashable(v)) for k, v in sorted(obj.items())]) |
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elif isinstance(obj, Sequence): |
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return frozenset(zip(itertools.count(), [to_hashable(i) for i in obj])) |
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else: |
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# TODO - Support other objects like tensors? |
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return Unhashable() |
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class CacheKeySetID(CacheKeySet): |
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def __init__(self, dynprompt, node_ids, is_changed_cache): |
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super().__init__(dynprompt, node_ids, is_changed_cache) |
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self.dynprompt = dynprompt |
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self.add_keys(node_ids) |
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def add_keys(self, node_ids): |
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for node_id in node_ids: |
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if node_id in self.keys: |
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continue |
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node = self.dynprompt.get_node(node_id) |
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self.keys[node_id] = (node_id, node["class_type"]) |
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self.subcache_keys[node_id] = (node_id, node["class_type"]) |
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class CacheKeySetInputSignature(CacheKeySet): |
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def __init__(self, dynprompt, node_ids, is_changed_cache): |
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super().__init__(dynprompt, node_ids, is_changed_cache) |
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self.dynprompt = dynprompt |
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self.is_changed_cache = is_changed_cache |
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self.add_keys(node_ids) |
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def include_node_id_in_input(self) -> bool: |
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return False |
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def add_keys(self, node_ids): |
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for node_id in node_ids: |
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if node_id in self.keys: |
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continue |
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node = self.dynprompt.get_node(node_id) |
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self.keys[node_id] = self.get_node_signature(self.dynprompt, node_id) |
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self.subcache_keys[node_id] = (node_id, node["class_type"]) |
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def get_node_signature(self, dynprompt, node_id): |
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signature = [] |
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ancestors, order_mapping = self.get_ordered_ancestry(dynprompt, node_id) |
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signature.append(self.get_immediate_node_signature(dynprompt, node_id, order_mapping)) |
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for ancestor_id in ancestors: |
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signature.append(self.get_immediate_node_signature(dynprompt, ancestor_id, order_mapping)) |
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return to_hashable(signature) |
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def get_immediate_node_signature(self, dynprompt, node_id, ancestor_order_mapping): |
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node = dynprompt.get_node(node_id) |
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class_type = node["class_type"] |
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class_def = nodes.NODE_CLASS_MAPPINGS[class_type] |
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signature = [class_type, self.is_changed_cache.get(node_id)] |
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if self.include_node_id_in_input() or (hasattr(class_def, "NOT_IDEMPOTENT") and class_def.NOT_IDEMPOTENT): |
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signature.append(node_id) |
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inputs = node["inputs"] |
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for key in sorted(inputs.keys()): |
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if is_link(inputs[key]): |
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(ancestor_id, ancestor_socket) = inputs[key] |
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ancestor_index = ancestor_order_mapping[ancestor_id] |
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signature.append((key,("ANCESTOR", ancestor_index, ancestor_socket))) |
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else: |
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signature.append((key, inputs[key])) |
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return signature |
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# This function returns a list of all ancestors of the given node. The order of the list is |
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# deterministic based on which specific inputs the ancestor is connected by. |
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def get_ordered_ancestry(self, dynprompt, node_id): |
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ancestors = [] |
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order_mapping = {} |
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self.get_ordered_ancestry_internal(dynprompt, node_id, ancestors, order_mapping) |
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return ancestors, order_mapping |
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def get_ordered_ancestry_internal(self, dynprompt, node_id, ancestors, order_mapping): |
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inputs = dynprompt.get_node(node_id)["inputs"] |
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input_keys = sorted(inputs.keys()) |
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for key in input_keys: |
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if is_link(inputs[key]): |
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ancestor_id = inputs[key][0] |
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if ancestor_id not in order_mapping: |
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ancestors.append(ancestor_id) |
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order_mapping[ancestor_id] = len(ancestors) - 1 |
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self.get_ordered_ancestry_internal(dynprompt, ancestor_id, ancestors, order_mapping) |
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class CacheKeySetInputSignatureWithID(CacheKeySetInputSignature): |
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def __init__(self, dynprompt, node_ids, is_changed_cache): |
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super().__init__(dynprompt, node_ids, is_changed_cache) |
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def include_node_id_in_input(self): |
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return True |
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class BasicCache: |
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def __init__(self, key_class): |
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self.key_class = key_class |
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self.initialized = False |
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self.dynprompt: DynamicPrompt |
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self.cache_key_set: CacheKeySet |
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self.cache = {} |
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self.subcaches = {} |
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def set_prompt(self, dynprompt, node_ids, is_changed_cache): |
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self.dynprompt = dynprompt |
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self.cache_key_set = self.key_class(dynprompt, node_ids, is_changed_cache) |
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self.is_changed_cache = is_changed_cache |
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self.initialized = True |
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def all_node_ids(self): |
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assert self.initialized |
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node_ids = self.cache_key_set.all_node_ids() |
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for subcache in self.subcaches.values(): |
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node_ids = node_ids.union(subcache.all_node_ids()) |
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return node_ids |
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def clean_unused(self): |
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assert self.initialized |
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preserve_keys = set(self.cache_key_set.get_used_keys()) |
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preserve_subcaches = set(self.cache_key_set.get_used_subcache_keys()) |
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to_remove = [] |
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for key in self.cache: |
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if key not in preserve_keys: |
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to_remove.append(key) |
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for key in to_remove: |
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del self.cache[key] |
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to_remove = [] |
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for key in self.subcaches: |
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if key not in preserve_subcaches: |
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to_remove.append(key) |
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for key in to_remove: |
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del self.subcaches[key] |
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def _set_immediate(self, node_id, value): |
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assert self.initialized |
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cache_key = self.cache_key_set.get_data_key(node_id) |
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self.cache[cache_key] = value |
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def _get_immediate(self, node_id): |
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if not self.initialized: |
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return None |
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cache_key = self.cache_key_set.get_data_key(node_id) |
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if cache_key in self.cache: |
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return self.cache[cache_key] |
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else: |
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return None |
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def _ensure_subcache(self, node_id, children_ids): |
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subcache_key = self.cache_key_set.get_subcache_key(node_id) |
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subcache = self.subcaches.get(subcache_key, None) |
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if subcache is None: |
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subcache = BasicCache(self.key_class) |
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self.subcaches[subcache_key] = subcache |
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subcache.set_prompt(self.dynprompt, children_ids, self.is_changed_cache) |
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return subcache |
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def _get_subcache(self, node_id): |
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assert self.initialized |
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subcache_key = self.cache_key_set.get_subcache_key(node_id) |
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if subcache_key in self.subcaches: |
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return self.subcaches[subcache_key] |
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else: |
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return None |
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def recursive_debug_dump(self): |
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result = [] |
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for key in self.cache: |
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result.append({"key": key, "value": self.cache[key]}) |
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for key in self.subcaches: |
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result.append({"subcache_key": key, "subcache": self.subcaches[key].recursive_debug_dump()}) |
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return result |
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class HierarchicalCache(BasicCache): |
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def __init__(self, key_class): |
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super().__init__(key_class) |
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def _get_cache_for(self, node_id): |
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assert self.dynprompt is not None |
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parent_id = self.dynprompt.get_parent_node_id(node_id) |
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if parent_id is None: |
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return self |
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hierarchy = [] |
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while parent_id is not None: |
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hierarchy.append(parent_id) |
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parent_id = self.dynprompt.get_parent_node_id(parent_id) |
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cache = self |
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for parent_id in reversed(hierarchy): |
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cache = cache._get_subcache(parent_id) |
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if cache is None: |
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return None |
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return cache |
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def get(self, node_id): |
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cache = self._get_cache_for(node_id) |
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if cache is None: |
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return None |
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return cache._get_immediate(node_id) |
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def set(self, node_id, value): |
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cache = self._get_cache_for(node_id) |
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assert cache is not None |
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cache._set_immediate(node_id, value) |
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def ensure_subcache_for(self, node_id, children_ids): |
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cache = self._get_cache_for(node_id) |
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assert cache is not None |
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return cache._ensure_subcache(node_id, children_ids) |
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def all_active_values(self): |
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active_nodes = self.all_node_ids() |
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result = [] |
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for node_id in active_nodes: |
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value = self.get(node_id) |
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if value is not None: |
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result.append(value) |
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return result |
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class LRUCache(BasicCache): |
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def __init__(self, key_class, max_size=100): |
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super().__init__(key_class) |
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self.max_size = max_size |
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self.min_generation = 0 |
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self.generation = 0 |
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self.used_generation = {} |
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self.children = {} |
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def set_prompt(self, dynprompt, node_ids, is_changed_cache): |
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super().set_prompt(dynprompt, node_ids, is_changed_cache) |
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self.generation += 1 |
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for node_id in node_ids: |
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self._mark_used(node_id) |
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print("LRUCache: Now at generation %d" % self.generation) |
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def clean_unused(self): |
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print("LRUCache: Cleaning unused. Current size: %d/%d" % (len(self.cache), self.max_size)) |
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while len(self.cache) > self.max_size and self.min_generation < self.generation: |
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print("LRUCache: Evicting generation %d" % self.min_generation) |
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self.min_generation += 1 |
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to_remove = [key for key in self.cache if self.used_generation[key] < self.min_generation] |
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for key in to_remove: |
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del self.cache[key] |
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del self.used_generation[key] |
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if key in self.children: |
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del self.children[key] |
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def get(self, node_id): |
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self._mark_used(node_id) |
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return self._get_immediate(node_id) |
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def _mark_used(self, node_id): |
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cache_key = self.cache_key_set.get_data_key(node_id) |
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if cache_key is not None: |
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self.used_generation[cache_key] = self.generation |
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def set(self, node_id, value): |
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self._mark_used(node_id) |
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return self._set_immediate(node_id, value) |
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def ensure_subcache_for(self, node_id, children_ids): |
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self.cache_key_set.add_keys(children_ids) |
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self._mark_used(node_id) |
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cache_key = self.cache_key_set.get_data_key(node_id) |
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self.children[cache_key] = [] |
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for child_id in children_ids: |
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self._mark_used(child_id) |
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self.children[cache_key].append(self.cache_key_set.get_data_key(child_id)) |
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return self |
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def all_active_values(self): |
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explored = set() |
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to_explore = set(self.cache_key_set.get_used_keys()) |
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while len(to_explore) > 0: |
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cache_key = to_explore.pop() |
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if cache_key not in explored: |
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self.used_generation[cache_key] = self.generation |
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explored.add(cache_key) |
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if cache_key in self.children: |
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to_explore.update(self.children[cache_key]) |
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return [self.cache[key] for key in explored if key in self.cache] |
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