// // OutputLayer.cpp // // Created by Marc Melikyan on 11/4/20. // #include "output_layer.h" #include "../lin_alg/lin_alg.h" #include "../utilities/utilities.h" #include #include OutputLayer::OutputLayer(int n_hidden, std::string activation, std::string cost, std::vector> input, std::string weightInit, std::string reg, double lambda, double alpha) : n_hidden(n_hidden), activation(activation), cost(cost), input(input), weightInit(weightInit), reg(reg), lambda(lambda), alpha(alpha) { weights = Utilities::weightInitialization(n_hidden, weightInit); bias = Utilities::biasInitialization(); activation_map["Linear"] = &MLPPActivation::linear; activationTest_map["Linear"] = &MLPPActivation::linear; activation_map["Sigmoid"] = &MLPPActivation::sigmoid; activationTest_map["Sigmoid"] = &MLPPActivation::sigmoid; activation_map["Swish"] = &MLPPActivation::swish; activationTest_map["Swish"] = &MLPPActivation::swish; activation_map["Mish"] = &MLPPActivation::mish; activationTest_map["Mish"] = &MLPPActivation::mish; activation_map["SinC"] = &MLPPActivation::sinc; activationTest_map["SinC"] = &MLPPActivation::sinc; activation_map["Softplus"] = &MLPPActivation::softplus; activationTest_map["Softplus"] = &MLPPActivation::softplus; activation_map["Softsign"] = &MLPPActivation::softsign; activationTest_map["Softsign"] = &MLPPActivation::softsign; activation_map["CLogLog"] = &MLPPActivation::cloglog; activationTest_map["CLogLog"] = &MLPPActivation::cloglog; activation_map["Logit"] = &MLPPActivation::logit; activationTest_map["Logit"] = &MLPPActivation::logit; activation_map["GaussianCDF"] = &MLPPActivation::gaussianCDF; activationTest_map["GaussianCDF"] = &MLPPActivation::gaussianCDF; activation_map["RELU"] = &MLPPActivation::RELU; activationTest_map["RELU"] = &MLPPActivation::RELU; activation_map["GELU"] = &MLPPActivation::GELU; activationTest_map["GELU"] = &MLPPActivation::GELU; activation_map["Sign"] = &MLPPActivation::sign; activationTest_map["Sign"] = &MLPPActivation::sign; activation_map["UnitStep"] = &MLPPActivation::unitStep; activationTest_map["UnitStep"] = &MLPPActivation::unitStep; activation_map["Sinh"] = &MLPPActivation::sinh; activationTest_map["Sinh"] = &MLPPActivation::sinh; activation_map["Cosh"] = &MLPPActivation::cosh; activationTest_map["Cosh"] = &MLPPActivation::cosh; activation_map["Tanh"] = &MLPPActivation::tanh; activationTest_map["Tanh"] = &MLPPActivation::tanh; activation_map["Csch"] = &MLPPActivation::csch; activationTest_map["Csch"] = &MLPPActivation::csch; activation_map["Sech"] = &MLPPActivation::sech; activationTest_map["Sech"] = &MLPPActivation::sech; activation_map["Coth"] = &MLPPActivation::coth; activationTest_map["Coth"] = &MLPPActivation::coth; activation_map["Arsinh"] = &MLPPActivation::arsinh; activationTest_map["Arsinh"] = &MLPPActivation::arsinh; activation_map["Arcosh"] = &MLPPActivation::arcosh; activationTest_map["Arcosh"] = &MLPPActivation::arcosh; activation_map["Artanh"] = &MLPPActivation::artanh; activationTest_map["Artanh"] = &MLPPActivation::artanh; activation_map["Arcsch"] = &MLPPActivation::arcsch; activationTest_map["Arcsch"] = &MLPPActivation::arcsch; activation_map["Arsech"] = &MLPPActivation::arsech; activationTest_map["Arsech"] = &MLPPActivation::arsech; activation_map["Arcoth"] = &MLPPActivation::arcoth; activationTest_map["Arcoth"] = &MLPPActivation::arcoth; costDeriv_map["MSE"] = &MLPPCost::MSEDeriv; cost_map["MSE"] = &MLPPCost::MSE; costDeriv_map["RMSE"] = &MLPPCost::RMSEDeriv; cost_map["RMSE"] = &MLPPCost::RMSE; costDeriv_map["MAE"] = &MLPPCost::MAEDeriv; cost_map["MAE"] = &MLPPCost::MAE; costDeriv_map["MBE"] = &MLPPCost::MBEDeriv; cost_map["MBE"] = &MLPPCost::MBE; costDeriv_map["LogLoss"] = &MLPPCost::LogLossDeriv; cost_map["LogLoss"] = &MLPPCost::LogLoss; costDeriv_map["CrossEntropy"] = &MLPPCost::CrossEntropyDeriv; cost_map["CrossEntropy"] = &MLPPCost::CrossEntropy; costDeriv_map["HingeLoss"] = &MLPPCost::HingeLossDeriv; cost_map["HingeLoss"] = &MLPPCost::HingeLoss; costDeriv_map["WassersteinLoss"] = &MLPPCost::HingeLossDeriv; cost_map["WassersteinLoss"] = &MLPPCost::HingeLoss; } void OutputLayer::forwardPass() { MLPPLinAlg alg; MLPPActivation avn; z = alg.scalarAdd(bias, alg.mat_vec_mult(input, weights)); a = (avn.*activation_map[activation])(z, 0); } void OutputLayer::Test(std::vector x) { MLPPLinAlg alg; MLPPActivation avn; z_test = alg.dot(weights, x) + bias; a_test = (avn.*activationTest_map[activation])(z_test, 0); }