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WeightedFlattening.cs
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using MNCD.Core;
using MNCD.Extensions;
using System;
using System.Collections.Generic;
using System.Linq;
namespace MNCD.Flattening
{
/// <summary>
/// Class that implements weighted flattening method.
///
/// 4.2.1 Flattening and Projection
/// Multilayer Social Networks
/// Mark E. Dickison, Matteo Magnani and Luca Rossi.
/// </summary>
public class WeightedFlattening
{
/// <summary>
/// Flattens network based on weights between layers.
/// </summary>
/// <param name="network">Multi-layer network.</param>
/// <param name="weights">MxM matrix of weights. (M - number of layers).</param>
/// <returns>Flattened network.</returns>
public Network Flatten(Network network, double[,] weights)
{
network = network ?? throw new ArgumentNullException("Network must not be null.");
if (weights.GetLength(0) != weights.GetLength(1) || weights.GetLength(0) != network.LayerCount)
{
throw new ArgumentException("Weights matrix must be of size layer count x layer count.");
}
var flattened = new Network(new Layer(), network.Actors);
var layerToIndex = network.GetLayerToIndex();
var edgesDict = new Dictionary<(Actor from, Actor to), double>();
foreach (var layer in network.Layers)
{
var idx = layerToIndex[layer];
foreach (var edge in layer.Edges)
{
if (edgesDict.ContainsKey((edge.From, edge.To)))
{
edgesDict[(edge.From, edge.To)] += edge.Weight * weights[idx, idx];
}
else if (edgesDict.ContainsKey((edge.To, edge.From)))
{
edgesDict[(edge.To, edge.From)] += edge.Weight * weights[idx, idx];
}
else
{
edgesDict[(edge.From, edge.To)] = edge.Weight * weights[idx, idx];
}
}
}
foreach (var edge in network.InterLayerEdges)
{
var lf = layerToIndex[edge.LayerFrom];
var lt = layerToIndex[edge.LayerTo];
if (edgesDict.ContainsKey((edge.From, edge.To)))
{
edgesDict[(edge.From, edge.To)] += edge.Weight * weights[lf, lt];
}
else if (edgesDict.ContainsKey((edge.To, edge.From)))
{
edgesDict[(edge.To, edge.From)] += edge.Weight * weights[lf, lt];
}
else
{
edgesDict[(edge.From, edge.To)] = edge.Weight * weights[lf, lt];
}
}
flattened.FirstLayer.Edges = edgesDict
.Select(e => new Edge(e.Key.from, e.Key.to, e.Value))
.ToList();
return flattened;
}
}
}