Simple Plotting Library for C++
This is a simple plotting library that I wrote mostly for myself in C++. The Purpose of it is to be a light header-only library to allow easy plotting in C++.
The Code has been tested on Linux Ubuntu 16.04 with C++11. You should be able to replicate the results yourself just by pulling the repository and compiling the plot.cpp file.
Note: The images are all saved as .ppm files.
Example plots:
Example Code:
int main(){
setHeight(1024);
setWidth(1024);
vector< vector<int> > testLine = {{0,0},{1,2},{2,4},{4,8},{8,16}}; // y = x*2
vector< vector<int> > testLineWeird = {{0,0},{1,2},{2,4},{4,3},{8,16}};
vector< vector<int> > testPoints = {{0,0}, {5,5}, {1,6}, {3,2}, {1,2}, {3,4}, {2,3}, {2,2}, {3,3}, {5,2}, {7,8}};
vector< vector<int> > parabola;
for(int i = 0; i <= 100; i++)parabola.push_back({i, i*i});
// In order to make a plot we need to put each one of our parameters in a vector. So that we can plot multiple
// point groups with different colors as well as get a bit more flexibility
// Here are some quick examples
plotPoints("selectionDotWithGrid.ppm", vector< vector< vector<int> > >{testPoints}, 0, 1, 7, vector<Color>{Color(60,10,255)}, vector<string>{"*"});
plotPoints("selectionCrossWithGrid.ppm", vector< vector< vector<int> > >{testPoints}, 0, 1, 7, vector<Color>{Color(60,10,255)}, vector<string>{"+"});
plotLine("testLinePlotParabola.ppm", vector< vector< vector<int> > >{parabola}, 0, 1, 1, vector<Color>{Color(60,10,255)});
plotPoints("groupPointPlot.ppm", vector< vector< vector<int> > >{testPoints, testLineWeird}, 0, 1, 6, vector<Color>{Color(60,10,255), Color(255,10,60)}, vector<string>{"*","*"});
}Plotting the Iris Dataset:
#include <bits/stdc++.h>
#include "plot.h"
using namespace std;
/*
1. sepal length in cm
2. sepal width in cm
3. petal length in cm
4. petal width in cm
5. class:
Iris-setosa --> 0
Iris-versicolor --> 1
Iris-virginica --> 2
*/
int main(){
// Create containers to store each class
//50 samples for each class. Each one with 4 Features + class Label
vector< vector<double> > Iris_setosa(50, vector<double>(5));
vector< vector<double> > Iris_versicolor(50, vector<double>(5));
vector< vector<double> > Iris_virginica(50, vector<double>(5));
// Choose colors to represent each class
Color setosaColor(60,20,180);
Color versicolorColor(180,20,60);
Color virginicaColor(20,180,60);
// Read data to stdin
freopen("iris.data", "r", stdin); // Read data to stdin
// Fill each container
// 150 train samples
for(int sample = 0; sample < 150; sample++){
// 4 Features + Class Label
for(int feature = 0; feature < 5; feature++){
if(sample<50)cin >> Iris_setosa[sample][feature];
else if(sample<100)cin >> Iris_versicolor[sample%50][feature];
else if(sample<150)cin >> Iris_virginica[sample%100][feature];
}
}
// Set Width and height of plot
setHeight(512);
setWidth(512+256);
// In this tutorial we will be plotting the "petal length" against the "sepal length" for each sample
// First since we are creating a GroupPlot let's add our colors, symbols and data into containers
vector< vector< vector<double> > > plotData = {Iris_setosa, Iris_versicolor, Iris_virginica};
vector<Color> colors = {setosaColor, versicolorColor, virginicaColor};
vector<string> symbols = {"*","*","*"};
// Now let's plot the graph
// Filename, DataVector, xAxis, yAxis, dotSize, colorVector, Symbols
plotPoints("Iris.PetalLength.SepalLength.ppm", plotData, 0, 2, 4, colors, symbols);
}Panagiotis Petridis, High School Student
Greece
If you have an opening in your team be sure to shoot me an email!
React
Typescript
Django
Laravel
Facebook
Microsoft
Google
Alibaba
D3
Tencent