| import numpy as np | |
| import networkx as nx | |
| import random | |
| from typing import Dict, Any | |
| class QuantumSpiderweb: | |
| """ | |
| Simulates a cognitive spiderweb architecture with dimensions: | |
| Ψ (thought), τ (time), χ (speed), Φ (emotion), λ (space) | |
| """ | |
| def __init__(self, node_count: int = 128): | |
| self.graph = nx.Graph() | |
| self.dimensions = ['Ψ', 'τ', 'χ', 'Φ', 'λ'] | |
| self._init_nodes(node_count) | |
| self.entangled_state = {} | |
| def _init_nodes(self, count: int): | |
| for i in range(count): | |
| node_id = f"QNode_{i}" | |
| state = self._generate_state() | |
| self.graph.add_node(node_id, state=state) | |
| if i > 0: | |
| connection = f"QNode_{random.randint(0, i-1)}" | |
| self.graph.add_edge(node_id, connection, weight=random.random()) | |
| def _generate_state(self) -> Dict[str, float]: | |
| return {dim: np.random.uniform(-1.0, 1.0) for dim in self.dimensions} | |
| def propagate_thought(self, origin: str, depth: int = 3): | |
| """ | |
| Traverse the graph from a starting node, simulating pre-cognitive waveform | |
| """ | |
| visited = set() | |
| stack = [(origin, 0)] | |
| traversal_output = [] | |
| while stack: | |
| node, level = stack.pop() | |
| if node in visited or level > depth: | |
| continue | |
| visited.add(node) | |
| state = self.graph.nodes[node]['state'] | |
| traversal_output.append((node, state)) | |
| for neighbor in self.graph.neighbors(node): | |
| stack.append((neighbor, level + 1)) | |
| return traversal_output | |
| def detect_tension(self, node: str) -> float: | |
| """ | |
| Measures tension (instability) in the node's quantum state | |
| """ | |
| state = self.graph.nodes[node]['state'] | |
| return np.std(list(state.values())) | |
| def collapse_node(self, node: str) -> Dict[str, Any]: | |
| """ | |
| Collapse superposed thought into deterministic response | |
| """ | |
| state = self.graph.nodes[node]['state'] | |
| collapsed = {k: round(v, 2) for k, v in state.items()} | |
| self.entangled_state[node] = collapsed | |
| return collapsed | |
| if __name__ == "__main__": | |
| web = QuantumSpiderweb() | |
| root = "QNode_0" | |
| path = web.propagate_thought(root) | |
| print("Initial Propagation from:", root) | |
| for n, s in path: | |
| print(f"{n}:", s) | |
| print("\nCollapse Sample Node:") | |
| print(web.collapse_node(root)) | |