This interface allows gnuplot to be controlled from C++ and is designed to be the lowest hanging fruit. In other words, if you know how gnuplot works it should only take 30 seconds to learn this library. Basically it is just an iostream pipe to gnuplot with some extra functions for pushing data arrays and getting mouse clicks. Data sources include STL containers (eg. vector), Blitz++, and armadillo. You can use nested data types like std::vector<std::vector<std::pair<double, double>>> (as well as even more exotic types). Support for custom data types is possible.

This is a low level interface, and usage involves manually sending commands to gnuplot using the "<<" operator (so you need to know gnuplot syntax). This is in my opinion the easiest way to do it if you are already comfortable with using gnuplot. If you would like a more high level interface check out the gnuplot-cpp library (http://code.google.com/p/gnuplot-cpp).

Download

Documentation

Documentation is available [here] but also you can look at the example programs (starting with "example-misc.cc").

Example 1

Chrome Os Flex Iso 💫 📌

Once you confirm everything works, installing is permanent:

After 10–20 minutes, the system will reboot. Remove the USB drive when prompted. Congratulations—you have successfully installed Chrome OS Flex without ever touching an ISO.

64-bit only. Google dropped 32-bit support completely. Your old PC must have a 64-bit processor (most computers after 2008). To check: on Windows, go to Settings > System > About > System type.

Most Linux distributions (like Ubuntu or Linux Mint) distribute their operating systems as .iso files. This is a standard format that contains all the installation data and is recognizable by burning software.

Google, however, distributes Chrome OS Flex as a .bin file specifically designed to be written directly to a USB flash drive. chrome os flex iso

Here is why the distinction matters:

Warning: If you search for "Chrome OS Flex ISO" and find downloadable files on third-party websites, be extremely cautious. These are often unauthorized modifications or, worse, malware. Always stick to the official source from Google.

Chrome OS Flex is a practical option to breathe new life into aging hardware if you primarily use web-based tools and want a low‑maintenance, secure system. Test via live USB first, back up data, and follow the installer steps above for a smooth migration.

Related search suggestions (These are suggested search terms you can use next) Once you confirm everything works, installing is permanent:

ChromeOS Flex is a free operating system from Google designed to revitalize older PCs and Macs by replacing their existing OS with a cloud-first, lightweight experience. While many users search for an "ISO" file to install it, Google officially provides the installer as a recovery image (.bin) rather than a standard ISO. System Requirements

To run ChromeOS Flex, your target device should meet these minimum specifications: Architecture: Intel or AMD x86 64-bit compatible device. RAM: At least 4GB. Storage: 16GB or more of internal storage. BIOS: Full administrator access to BIOS/UEFI settings.

Installation Media: A USB flash drive with at least 8GB of space. How to Create the Installer

There are two primary ways to create the installation media: After 10–20 minutes, the system will reboot

Before we dive into downloads, let’s clarify what Chrome OS Flex actually is.

Chrome OS Flex is Google’s enterprise-grade version of Chrome OS designed for PCs and Macs. Unlike a standard Chromebook which comes with a custom BIOS and a security chip (TPM), Flex is a free, community-flavored build that runs on x86 hardware (Intel/AMD).

The key distinction: Standard Chrome OS is locked to specific hardware. Chrome OS Flex is the universal installer.

Example 2

// Demo of sending data via temporary files.  The default is to send data to gnuplot directly
// through stdin.
//
// Compile it with:
//   g++ -o example-tmpfile example-tmpfile.cc -lboost_iostreams -lboost_system -lboost_filesystem

#include <map>
#include <vector>
#include <cmath>

#include "gnuplot-iostream.h"

int main() {
	Gnuplot gp;

	std::vector<std::pair<double, double> > xy_pts_A;
	for(double x=-2; x<2; x+=0.01) {
		double y = x*x*x;
		xy_pts_A.push_back(std::make_pair(x, y));
	}

	std::vector<std::pair<double, double> > xy_pts_B;
	for(double alpha=0; alpha<1; alpha+=1.0/24.0) {
		double theta = alpha*2.0*3.14159;
		xy_pts_B.push_back(std::make_pair(cos(theta), sin(theta)));
	}

	gp << "set xrange [-2:2]\nset yrange [-2:2]\n";
	// Data will be sent via a temporary file.  These are erased when you call
	// gp.clearTmpfiles() or when gp goes out of scope.  If you pass a filename
	// (e.g. "gp.file1d(pts, 'mydata.dat')"), then the named file will be created
	// and won't be deleted (this is useful when creating a script).
	gp << "plot" << gp.file1d(xy_pts_A) << "with lines title 'cubic',"
		<< gp.file1d(xy_pts_B) << "with points title 'circle'" << std::endl;

#ifdef _WIN32
	// For Windows, prompt for a keystroke before the Gnuplot object goes out of scope so that
	// the gnuplot window doesn't get closed.
	std::cout << "Press enter to exit." << std::endl;
	std::cin.get();
#endif
}