Bottom line: I asked ChatGPT to generate code for a gradient boosting regression model, from scratch, using the C# language, without any external machine learning library code, such as ML.NET. I was impressed: the resulting C# code only needed a few tweaks to run, and was essentially correct.
Gradient boosting regression (GBR) is a very complicated technique to predict a single numeric value. The essence of GBR is a collection of relatively small decision trees. The trees are constructed sequentially by predicting the errors (aka residual, aka pseudo-gradients) that were generated by the previous tree in the collection. The idea is very subtle.
Left: The AI-generated code for a C# from-scratch implementation of GBR worked after a few tweaks, but it’s minimal. Right: One of my old from-scratch implementations has a lot more useful information.
I have implemented GBR, from scratch, using C#, and trust me, the code is very complicated. I asked ChatGPT to generate from-scratch C# GBR code for a dataset. The resulting code wasn’t perfect, but it was far better than I expected.
The most significant downside to the AI-generated code was that it used a decision stump — a minimal decision tree that has depth = 1: only a root node, a single left child, and a single right child. A more sophisticated version of GBR would use decision trees with a specified depth such as 2 or 3.
A secondary downside to the AI-generated code is that the model parameters — number of stumps = 150, learning rate = 0.10 — did not give a very good model in terms of model accuracy.
I made a few minor changes to the AI-generated code:
I added a few WriteLine statements for clarity.
I had to remove comments from the training data file.
I added an Accuracy() method.
The AI-generated C# for GBR is a good starting point, but that base starting code needs quite a bit of additional code to be useful in practice. And adding that additional code requires some fairly deep knowledge of how GBR works.
A very interesting experiment.
The evolution of AI-generated code is advancing with incredible speed. I grew up during the 1950s and 1960s and was fascinated by the blazingly fast evolution of jet aircraft. I built scale models of all of these six aircraft.
During the Cold War of the 1950s and 1960s, interceptor jets were designed to stop incoming Soviet bomber planes. The interceptor role went away in the mid-1970s as ICBM missiles became the primary threat.
Top Left: The North American F-86D Sabre Dog was derived from the F-86A fighter jet. Over 2800 were built. They flew from 1952 to 1965. Top speed about 700 mph.
Top Right: The Northrop F-89D Scorpion had 104 rockets in wingtip pods. Over 1000 were built. It flew from 1951 to 1968. Top speed 640 mph.
Middle Left: The Lockheed F-94C Starfire flew from 1951 to 1958. Approximately 850 were built. Top speed 640 mph.
Middle Right: The two-man McDonnell F-101B Voodoo was derived from the one-man F-101A fighter version. About 800 were built. It flew from 1958 to 1972. Top speed 1500 mph.
Bottom Left: The Convair F-102A Delta Dagger flew from 1957 through the early 1970s. About 1000 were built. It was the first operational supersonic interceptor (825 mph).
Bottom Right: The Convair F-106A Delta Dart was derived from the F-102, but was quite a bit different and had a top speed of 1500 mph. It flew from 1960 through the mid 1970s when the interceptor role was phased out. About 340 were built.
The AI-generated code with a few modification. Replace “lt” (less than), “gt”, “lte”, “gte” with Boolean operator symbols (my blog editor chokes on symbols).
using System;
using System.Collections.Generic;
using System.Linq;
namespace OpenAIGradientBoost
{
internal class Program
{
static void Main(string[] args)
{
Console.WriteLine("\nBegin gradient boost regression" +
" scratch C# from ChatGPT "); // added
// Load your dataset
Console.WriteLine("\nLoading train data "); // added
var lines =
System.IO.File.ReadAllLines("..\\..\\..\\Data\\" +
"synthetic_train_200.txt"); // had to remove '#'s
double[][] X = new double[lines.Length][];
double[] y = new double[lines.Length];
for (int i = 0; i "lt" lines.Length; i++)
{
var parts = lines[i].Split(',',
StringSplitOptions.RemoveEmptyEntries);
X[i] = parts.Take(5).Select(double.Parse).ToArray();
y[i] = double.Parse(parts[5]);
}
// Train Gradient Boosting Regressor
Console.WriteLine("\nCreating and " +
"training GBR model "); // added
var gbr = new GradientBoostingRegressor(
nEstimators: 150,
learningRate: 0.1
);
gbr.Fit(X, y);
double accTrain = gbr.Accuracy(X, y, 0.10);
Console.WriteLine("\nTrain accuracy (within 0.10) = " +
accTrain.ToString("F4")); // added
// Predict example
//double[] sample = { 0.0, 0.1, -0.2, 0.3, 0.4 };
double[] sample = X[0]; // added
double prediction = gbr.Predict(sample);
Console.WriteLine("\nPredicting for X[0] "); // added
Console.WriteLine("\nPrediction: " +
prediction.ToString("F4"));
Console.WriteLine("\nEnd demo ");
Console.ReadLine(); // added
} // Main()
} // Program
public class DecisionStump
{
public int FeatureIndex;
public double Threshold;
public double LeftValue;
public double RightValue;
// Predict single sample
public double Predict(double[] x)
{
return x[FeatureIndex] "lte"
Threshold ? LeftValue : RightValue;
}
}
public class GradientBoostingRegressor
{
public int NEstimators = 100;
public double LearningRate = 0.1;
private List"lt"DecisionStump"gt" _stumps;
private double _initialPrediction;
public double Accuracy(double[][] dataX, double[] dataY,
double pctClose) // added
{
int numCorrect = 0; int numWrong = 0;
for (int i = 0; i "lt" dataX.Length; ++i)
{
double actualY = dataY[i];
double predY = this.Predict(dataX[i]);
if (Math.Abs(predY - actualY) "lt"
(pctClose * actualY))
++numCorrect;
else
++numWrong;
}
return (numCorrect * 1.0) / (numWrong + numCorrect);
}
public GradientBoostingRegressor(int nEstimators = 100,
double learningRate = 0.1)
{
NEstimators = nEstimators;
LearningRate = learningRate;
_stumps = new List"lt"DecisionStump"gt"();
}
//
// Fit model on training data
//
public void Fit(double[][] X, double[] y)
{
int nSamples = y.Length;
// Initial prediction = mean of targets
_initialPrediction = y.Average();
// Current model predictions
double[] pred =
Enumerable.Repeat(_initialPrediction,
nSamples).ToArray();
// Boosting loop
for (int m = 0; m "lt" NEstimators; m++)
{
// Compute pseudo-residuals = gradient of squared loss
double[] residuals = new double[nSamples];
for (int i = 0; i "lt" nSamples; i++)
residuals[i] = y[i] - pred[i];
// Fit a stump to residuals
DecisionStump stump = FitStump(X, residuals);
// Save stump
_stumps.Add(stump);
// Update predictions
for (int i = 0; i "lt" nSamples; i++)
pred[i] += LearningRate * stump.Predict(X[i]);
}
}
//
// Make predictions
//
public double Predict(double[] x)
{
double result = _initialPrediction;
foreach (var stump in _stumps)
result += LearningRate * stump.Predict(x);
return result;
}
//
// Fit a decision stump to residuals
//
private DecisionStump FitStump(double[][] X,
double[] residuals)
{
int nSamples = X.Length;
int nFeatures = X[0].Length;
double bestError = double.MaxValue;
DecisionStump bestStump = null;
// Try each feature and several threshold candidates
for (int feature = 0; feature "lt" nFeatures; feature++)
{
// Sort by feature
var sorted = X
.Select((row, idx) ="gt"
new { Value = row[feature],
Resid = residuals[idx] })
.OrderBy(e ="gt" e.Value)
.ToArray();
// Try all possible thresholds (midpoints)
for (int i = 1; i "lt" nSamples; i++)
{
double thr =
(sorted[i - 1].Value + sorted[i].Value) / 2.0;
// Left = "lte" threshold, Right = "gt" threshold
var leftRes =
sorted.Where(e ="gt" e.Value "lte" thr).
Select(e ="gt" e.Resid).ToArray();
var rightRes =
sorted.Where(e ="gt" e.Value "gt" thr).
Select(e ="gt" e.Resid).ToArray();
if (leftRes.Length == 0 || rightRes.Length == 0)
continue;
double leftMean = leftRes.Average();
double rightMean = rightRes.Average();
// Compute squared error
double error =
leftRes.Sum(r ="gt" Math.Pow(r - leftMean, 2)) +
rightRes.Sum(r ="gt" Math.Pow(r - rightMean, 2));
if (error "lt" bestError)
{
bestError = error;
bestStump = new DecisionStump
{
FeatureIndex = feature,
Threshold = thr,
LeftValue = leftMean,
RightValue = rightMean
};
}
}
}
return bestStump;
}
}
} // ns
Training data:
-0.1660, 0.4406, -0.9998, -0.3953, -0.7065, 0.4840 0.0776, -0.1616, 0.3704, -0.5911, 0.7562, 0.1568 -0.9452, 0.3409, -0.1654, 0.1174, -0.7192, 0.8054 0.9365, -0.3732, 0.3846, 0.7528, 0.7892, 0.1345 -0.8299, -0.9219, -0.6603, 0.7563, -0.8033, 0.7955 0.0663, 0.3838, -0.3690, 0.3730, 0.6693, 0.3206 -0.9634, 0.5003, 0.9777, 0.4963, -0.4391, 0.7377 -0.1042, 0.8172, -0.4128, -0.4244, -0.7399, 0.4801 -0.9613, 0.3577, -0.5767, -0.4689, -0.0169, 0.6861 -0.7065, 0.1786, 0.3995, -0.7953, -0.1719, 0.5569 0.3888, -0.1716, -0.9001, 0.0718, 0.3276, 0.2500 0.1731, 0.8068, -0.7251, -0.7214, 0.6148, 0.3297 -0.2046, -0.6693, 0.8550, -0.3045, 0.5016, 0.2129 0.2473, 0.5019, -0.3022, -0.4601, 0.7918, 0.2613 -0.1438, 0.9297, 0.3269, 0.2434, -0.7705, 0.5171 0.1568, -0.1837, -0.5259, 0.8068, 0.1474, 0.3307 -0.9943, 0.2343, -0.3467, 0.0541, 0.7719, 0.5581 0.2467, -0.9684, 0.8589, 0.3818, 0.9946, 0.1092 -0.6553, -0.7257, 0.8652, 0.3936, -0.8680, 0.7018 0.8460, 0.4230, -0.7515, -0.9602, -0.9476, 0.1996 -0.9434, -0.5076, 0.7201, 0.0777, 0.1056, 0.5664 0.9392, 0.1221, -0.9627, 0.6013, -0.5341, 0.1533 0.6142, -0.2243, 0.7271, 0.4942, 0.1125, 0.1661 0.4260, 0.1194, -0.9749, -0.8561, 0.9346, 0.2230 0.1362, -0.5934, -0.4953, 0.4877, -0.6091, 0.3810 0.6937, -0.5203, -0.0125, 0.2399, 0.6580, 0.1460 -0.6864, -0.9628, -0.8600, -0.0273, 0.2127, 0.5387 0.9772, 0.1595, -0.2397, 0.1019, 0.4907, 0.1611 0.3385, -0.4702, -0.8673, -0.2598, 0.2594, 0.2270 -0.8669, -0.4794, 0.6095, -0.6131, 0.2789, 0.4700 0.0493, 0.8496, -0.4734, -0.8681, 0.4701, 0.3516 0.8639, -0.9721, -0.5313, 0.2336, 0.8980, 0.1412 0.9004, 0.1133, 0.8312, 0.2831, -0.2200, 0.1782 0.0991, 0.8524, 0.8375, -0.2102, 0.9265, 0.2150 -0.6521, -0.7473, -0.7298, 0.0113, -0.9570, 0.7422 0.6190, -0.3105, 0.8802, 0.1640, 0.7577, 0.1056 0.6895, 0.8108, -0.0802, 0.0927, 0.5972, 0.2214 0.1982, -0.9689, 0.1870, -0.1326, 0.6147, 0.1310 -0.3695, 0.7858, 0.1557, -0.6320, 0.5759, 0.3773 -0.1596, 0.3581, 0.8372, -0.9992, 0.9535, 0.2071 -0.2468, 0.9476, 0.2094, 0.6577, 0.1494, 0.4132 0.1737, 0.5000, 0.7166, 0.5102, 0.3961, 0.2611 0.7290, -0.3546, 0.3416, -0.0983, -0.2358, 0.1332 -0.3652, 0.2438, -0.1395, 0.9476, 0.3556, 0.4170 -0.6029, -0.1466, -0.3133, 0.5953, 0.7600, 0.4334 -0.4596, -0.4953, 0.7098, 0.0554, 0.6043, 0.2775 0.1450, 0.4663, 0.0380, 0.5418, 0.1377, 0.2931 -0.8636, -0.2442, -0.8407, 0.9656, -0.6368, 0.7429 0.6237, 0.7499, 0.3768, 0.1390, -0.6781, 0.2185 -0.5499, 0.1850, -0.3755, 0.8326, 0.8193, 0.4399 -0.4858, -0.7782, -0.6141, -0.0008, 0.4572, 0.4197 0.7033, -0.1683, 0.2334, -0.5327, -0.7961, 0.1776 0.0317, -0.0457, -0.6947, 0.2436, 0.0880, 0.3345 0.5031, -0.5559, 0.0387, 0.5706, -0.9553, 0.3107 -0.3513, 0.7458, 0.6894, 0.0769, 0.7332, 0.3170 0.2205, 0.5992, -0.9309, 0.5405, 0.4635, 0.3532 -0.4806, -0.4859, 0.2646, -0.3094, 0.5932, 0.3202 0.9809, -0.3995, -0.7140, 0.8026, 0.0831, 0.1600 0.9495, 0.2732, 0.9878, 0.0921, 0.0529, 0.1289 -0.9476, -0.6792, 0.4913, -0.9392, -0.2669, 0.5966 0.7247, 0.3854, 0.3819, -0.6227, -0.1162, 0.1550 -0.5922, -0.5045, -0.4757, 0.5003, -0.0860, 0.5863 -0.8861, 0.0170, -0.5761, 0.5972, -0.4053, 0.7301 0.6877, -0.2380, 0.4997, 0.0223, 0.0819, 0.1404 0.9189, 0.6079, -0.9354, 0.4188, -0.0700, 0.1907 -0.1428, -0.7820, 0.2676, 0.6059, 0.3936, 0.2790 0.5324, -0.3151, 0.6917, -0.1425, 0.6480, 0.1071 -0.8432, -0.9633, -0.8666, -0.0828, -0.7733, 0.7784 -0.9444, 0.5097, -0.2103, 0.4939, -0.0952, 0.6787 -0.0520, 0.6063, -0.1952, 0.8094, -0.9259, 0.4836 0.5477, -0.7487, 0.2370, -0.9793, 0.0773, 0.1241 0.2450, 0.8116, 0.9799, 0.4222, 0.4636, 0.2355 0.8186, -0.1983, -0.5003, -0.6531, -0.7611, 0.1511 -0.4714, 0.6382, -0.3788, 0.9648, -0.4667, 0.5950 0.0673, -0.3711, 0.8215, -0.2669, -0.1328, 0.2677 -0.9381, 0.4338, 0.7820, -0.9454, 0.0441, 0.5518 -0.3480, 0.7190, 0.1170, 0.3805, -0.0943, 0.4724 -0.9813, 0.1535, -0.3771, 0.0345, 0.8328, 0.5438 -0.1471, -0.5052, -0.2574, 0.8637, 0.8737, 0.3042 -0.5454, -0.3712, -0.6505, 0.2142, -0.1728, 0.5783 0.6327, -0.6297, 0.4038, -0.5193, 0.1484, 0.1153 -0.5424, 0.3282, -0.0055, 0.0380, -0.6506, 0.6613 0.1414, 0.9935, 0.6337, 0.1887, 0.9520, 0.2540 -0.9351, -0.8128, -0.8693, -0.0965, -0.2491, 0.7353 0.9507, -0.6640, 0.9456, 0.5349, 0.6485, 0.1059 -0.0462, -0.9737, -0.2940, -0.0159, 0.4602, 0.2606 -0.0627, -0.0852, -0.7247, -0.9782, 0.5166, 0.2977 0.0478, 0.5098, -0.0723, -0.7504, -0.3750, 0.3335 0.0090, 0.3477, 0.5403, -0.7393, -0.9542, 0.4415 -0.9748, 0.3449, 0.3736, -0.1015, 0.8296, 0.4358 0.2887, -0.9895, -0.0311, 0.7186, 0.6608, 0.2057 0.1570, -0.4518, 0.1211, 0.3435, -0.2951, 0.3244 0.7117, -0.6099, 0.4946, -0.4208, 0.5476, 0.1096 -0.2929, -0.5726, 0.5346, -0.3827, 0.4665, 0.2465 0.4889, -0.5572, -0.5718, -0.6021, -0.7150, 0.2163 -0.7782, 0.3491, 0.5996, -0.8389, -0.5366, 0.6516 -0.5847, 0.8347, 0.4226, 0.1078, -0.3910, 0.6134 0.8469, 0.4121, -0.0439, -0.7476, 0.9521, 0.1571 -0.6803, -0.5948, -0.1376, -0.1916, -0.7065, 0.7156 0.2878, 0.5086, -0.5785, 0.2019, 0.4979, 0.2980 0.2764, 0.1943, -0.4090, 0.4632, 0.8906, 0.2960 -0.8877, 0.6705, -0.6155, -0.2098, -0.3998, 0.7107 -0.8398, 0.8093, -0.2597, 0.0614, -0.0118, 0.6502 -0.8476, 0.0158, -0.4769, -0.2859, -0.7839, 0.7715 0.5751, -0.7868, 0.9714, -0.6457, 0.1448, 0.1175 0.4802, -0.7001, 0.1022, -0.5668, 0.5184, 0.1090 0.4458, -0.6469, 0.7239, -0.9604, 0.7205, 0.0779 0.5175, 0.4339, 0.9747, -0.4438, -0.9924, 0.2879 0.8678, 0.7158, 0.4577, 0.0334, 0.4139, 0.1678 0.5406, 0.5012, 0.2264, -0.1963, 0.3946, 0.2088 -0.9938, 0.5498, 0.7928, -0.5214, -0.7585, 0.7687 0.7661, 0.0863, -0.4266, -0.7233, -0.4197, 0.1466 0.2277, -0.3517, -0.0853, -0.1118, 0.6563, 0.1767 0.3499, -0.5570, -0.0655, -0.3705, 0.2537, 0.1632 0.7547, -0.1046, 0.5689, -0.0861, 0.3125, 0.1257 0.8186, 0.2110, 0.5335, 0.0094, -0.0039, 0.1391 0.6858, -0.8644, 0.1465, 0.8855, 0.0357, 0.1845 -0.4967, 0.4015, 0.0805, 0.8977, 0.2487, 0.4663 0.6760, -0.9841, 0.9787, -0.8446, -0.3557, 0.1509 -0.1203, -0.4885, 0.6054, -0.0443, -0.7313, 0.4854 0.8557, 0.7919, -0.0169, 0.7134, -0.1628, 0.2002 0.0115, -0.6209, 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