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Using Visual Studio to set up a C/C++ remote development environment

Introduction

In the previous articles, we have demonstrated a number of programs, mostly written in Python, that run on an Edge device. However, there are times when we need to write programs in C/C++. It is easy to set up a C/C++ remote development environment on an Edge device such as e-RT3 Plus or Raspberry Pi. In this article, we demonstrate how to set up the C/C++ environment on an Ubuntu installed Edge device using Visual Studio.

Environment

Supported devices (OS)

  • e-RT3 Plus F3RP70-2L (Ubuntu 18.04 32-bit) Edge controller of Yokogawa.
  • Raspberry Pi 4 Model B (Ubuntu Server 20.04 32-bit๏ผ‰

The armhf architecture package runs on these devices.

Software requirements

Visual Studio Professional 2022 version 17.2.6

Getting started

The first step towards setting up a Visual Studio environment on the device is to install the gdbserver package. To install the gdbserver package on the device, run the following commands.

sudo apt update
sudo apt install g++ make gdb gdbserver zip
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Note: By default, this package is installed on e-RT3 Plus.

Installing Visual Studio

Follow these steps to install Visual Studio:

  1. Install the tool set required to set up the Linux environment.

    Open Visual Studio Installer and install Linux and embedded development with C++.

    01_Install_Linux_dev

    For more information about Linux development with C++ in Visual Studio 2022, refer to the official documentation.

  2. Configure the settings for connecting Visual Studio and the device by performing these steps:

    1. Start Visual Studio.
    2. Open Tools > Options > Cross Platform > Connection Manager.
    3. Click Add.

      02_VisualStudio_config

    4. Enter the following details and click Connect.

      Items Value
      Host name IP address of device
      Port 22
      User name User name for device
      Authentication type Password
      Password User password

      03_Connect_remoteSys

  3. To download the header to be used in IntelliSense, click Connection Manager > Remote Header IntelliSense Manager, select the device that you added, and then click Download.

    04_DownloadHeaders

Creating and debugging a project

Creating and debugging a project involves the following steps:

  1. Creating a project
  2. Configuring project settings
  3. Building and debugging a project

Creating a project

Follow these steps to create a project:

  1. Start Visual Studio and create a new project.
  2. Specify the project type as C++ and Linux, select Console Application, and create a project by specifying the project name.

    05_CreateNewPjt

Configuring project settings

Follow these steps to configure project settings:

  1. From the menu bar, select Project > {project-name} Properties.

    06_Select_PjTProperties

  2. From the Configuration drop-down list, select Debug.

  3. From the Platform drop-down list, select ARM.

    07_ConfigureProperties

  4. On the left pane, select General.

  5. On the right pane, from the Remote Build Machine drop-down list, select the added device.

  6. Click Apply.

  7. On the left pane, select Debugging.

    08_ConfigureDebugProperties

  8. From the Remote Debug Machine drop-down list, select the added device.

  9. From the Debugging Mode drop-down list, select gdbserver, and then click Apply.

Building and debugging a project

Follow these steps to build and debug a project:

  1. After selecting Debug for Configuration and ARM for Platform, place a break point anywhere in the source code to build and run the program.

    09_CreateSampleCode

    If the program stops at the break point, it indicates that the project is created successfully.

    10_SampleCodeBreakpoint

    The output is displayed in the Linux console window.

    11_SampleCodeOutput

Appendix

Adding source files

Follow these steps to add source files:

  1. Right-click the project icon, and select Add > New Item.

    The Add New Item dialog box appears.

    12_Addnew

  2. Specify the file name, select the file type and then click Add.

    13_ItemName

Library links

Follow these steps to add library links:

  1. Open the Project properties.
  2. On the left pane, select Configuration Properties > Linker > Input > Library dependencies, and then click Edit.

    14_AddLink

  3. Enter the name of the library to be added.

    The following image shows the scenario when libm is added.

    15_LibraryName

Adding Include path

If you are using a header file that is available in a location other than the default location, you must configure the Include path settings.

  1. From the Project Properties, navigate to C/C++ > General > Additional Include directories, and then click Edit.

    16_Includepath

  2. Specify the directory path on device that includes the header file and click OK.

    17_Addpath

References

  1. AI platform for industries | Yokogawa Electric Corporation
  2. Linux development with C++

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