コード例 #1
0
            /**
                Generates the
             */
            std::vector<std::pair<Indices, Indices>> GenerateTwoPartition(const Indices& indices) const {
                assert(indices.Size() > 1);

                std::vector<std::pair<Indices, Indices>> result;

                // Take the first letter
                auto first = indices[0];

                for (int i=1; i<indices.Size(); i++) {
                    auto current = indices[i];

                    Indices remaining = indices;

                    Indices gamma;
                    gamma.Insert(first);
                    gamma.Insert(current);

                    remaining.Remove(i);
                    remaining.Remove(0);

                    result.push_back({ gamma, remaining });
                }

                return result;
            }
コード例 #2
0
            Tensor::Tensor Generate(const Indices& indices) const {
                // Expect all the ranges to be in space
                unsigned order = indices.Size();
                for (auto& index : indices) {
                    if (index.GetRange() != Common::Range(1,3)) {
                        // throw error
                    }
                }

                // We cannot build anything with one index!
                if (indices.Size() == 1) return Tensor::Tensor::Zero();

                Tensor::Tensor result = Tensor::Tensor::Zero();
                unsigned variableCounter = 0;

                // Calculate
                unsigned numEpsilon = (indices.Size() % 2 == 0) ? 0 : 1;
                unsigned numGammas  = (indices.Size() % 2 == 0) ? indices.Size()/2  : (indices.Size()-3)/2;

                std::vector<Indices> possibleIndices;

                if (numEpsilon == 1) {
                    possibleIndices = GenerateOddRank(indices);
                } else {
                    possibleIndices = GenerateEvenRank(indices);
                }

                std::vector<Tensor::Tensor> tensors;

                for (auto& newIndices : possibleIndices) {
                    // Create variable
                    Tensor::Scalar variable ("e", ++variableCounter);

                    tensors.push_back(variable * Tensor::Tensor::EpsilonGamma(numEpsilon, numGammas, newIndices));
                }

                return Tensor::Tensor::Add(tensors);
            }
コード例 #3
0
            std::vector<Indices> GenerateEvenRank(const Indices& indices) const {
                auto res = GenerateTwoPartition(indices);
                std::vector<Indices> result;

                if (indices.Size() == 2) {

                    for (auto& pair : res) {
                        result.push_back(pair.first);
                    }
                } else {
                    for (auto& pair : res) {
                        auto newComb = GenerateEvenRank(pair.second);
                        for (auto &v : newComb) {
                            auto current = pair.first;
                            current.Append(v);
                            result.push_back(current);
                        }
                    }
                }

                return result;
            }