Using Git With Visual Studio Code



Using GitHub with Visual Studio Code lets you share your source code and collaborate with others. GitHub integration is provided through the GitHub Pull Requests and Issues extension. Install the GitHub Pull Requests and Issues extension. To get started with the GitHub in VS Code, you'll need to create an account and install the GitHub Pull Requests and Issues extension. Version control in VS Code. In this tutorial, we will learn how to use the basics of Git version control in Visual Studio Code. For more information about integrated Git support, including how to work with remote repositories, read on in the related resources section below. Yes you can upload your git repo from vs code. You have to get in the projects working directory and type git init in the terminal. Then add the files to your repository like you do with regular git commits. For example, you might want to change branches or pull commits before you open a solution or folder. Our first step to help here is to provide an option to open only a repository, and not any code files with it. This will make Visual Studio essentially a Git-only tool. If you want to open code files, then you can load the solution or folder later. Ever wonder how Git is different from other version control systems? This module will discuss how to work with local and remote Git repositories. Work with source control using Git in Visual Studio Code for Business Central - Learn Microsoft Docs.

Chapters ▾

  1. 1. Getting Started

    1. 1.1 About Version Control
    2. 1.2 A Short History of Git
    3. 1.3 What is Git?
    4. 1.4 The Command Line
    5. 1.5 Installing Git
    6. 1.6 First-Time Git Setup
    7. 1.7 Getting Help
    8. 1.8 Summary

  2. 2. Git Basics

    1. 2.1 Getting a Git Repository
    2. 2.2 Recording Changes to the Repository
    3. 2.3 Viewing the Commit History
    4. 2.4 Undoing Things
    5. 2.5 Working with Remotes
    6. 2.6 Tagging
    7. 2.7 Git Aliases
    8. 2.8 Summary

  3. 3. Git Branching

    1. 3.1 Branches in a Nutshell
    2. 3.2 Basic Branching and Merging
    3. 3.3 Branch Management
    4. 3.4 Branching Workflows
    5. 3.5 Remote Branches
    6. 3.6 Rebasing
    7. 3.7 Summary

  4. 4. Git on the Server

    1. 4.1 The Protocols
    2. 4.2 Getting Git on a Server
    3. 4.3 Generating Your SSH Public Key
    4. 4.4 Setting Up the Server
    5. 4.5 Git Daemon
    6. 4.6 Smart HTTP
    7. 4.7 GitWeb
    8. 4.8 GitLab
    9. 4.9 Third Party Hosted Options
    10. 4.10 Summary

  5. 5. Distributed Git

    1. 5.1 Distributed Workflows
    2. 5.2 Contributing to a Project
    3. 5.3 Maintaining a Project
    4. 5.4 Summary

  1. 6. GitHub

    1. 6.1 Account Setup and Configuration
    2. 6.2 Contributing to a Project
    3. 6.3 Maintaining a Project
    4. 6.4 Managing an organization
    5. 6.5 Scripting GitHub
    6. 6.6 Summary

  2. 7. Git Tools

    1. 7.1 Revision Selection
    2. 7.2 Interactive Staging
    3. 7.3 Stashing and Cleaning
    4. 7.4 Signing Your Work
    5. 7.5 Searching
    6. 7.6 Rewriting History
    7. 7.7 Reset Demystified
    8. 7.8 Advanced Merging
    9. 7.9 Rerere
    10. 7.10 Debugging with Git
    11. 7.11 Submodules
    12. 7.12 Bundling
    13. 7.13 Replace
    14. 7.14 Credential Storage
    15. 7.15 Summary

  3. 8. Customizing Git

    1. 8.1 Git Configuration
    2. 8.2 Git Attributes
    3. 8.3 Git Hooks
    4. 8.4 An Example Git-Enforced Policy
    5. 8.5 Summary

  4. 9. Git and Other Systems

    1. 9.1 Git as a Client
    2. 9.2 Migrating to Git
    3. 9.3 Summary

  5. 10. Git Internals

    1. 10.1 Plumbing and Porcelain
    2. 10.2 Git Objects
    3. 10.3 Git References
    4. 10.4 Packfiles
    5. 10.5 The Refspec
    6. 10.6 Transfer Protocols
    7. 10.7 Maintenance and Data Recovery
    8. 10.8 Environment Variables
    9. 10.9 Summary

  1. A1. Appendix A: Git in Other Environments

    1. A1.1 Graphical Interfaces
    2. A1.2 Git in Visual Studio
    3. A1.3 Git in Visual Studio Code
    4. A1.4 Git in IntelliJ / PyCharm / WebStorm / PhpStorm / RubyMine
    5. A1.5 Git in Sublime Text
    6. A1.6 Git in Bash
    7. A1.7 Git in Zsh
    8. A1.8 Git in PowerShell
    9. A1.9 Summary

  2. A2. Appendix B: Embedding Git in your Applications

    1. A2.1 Command-line Git
    2. A2.2 Libgit2
    3. A2.3 JGit
    4. A2.4 go-git
    5. A2.5 Dulwich

  3. A3. Appendix C: Git Commands

    1. A3.1 Setup and Config
    2. A3.2 Getting and Creating Projects
    3. A3.3 Basic Snapshotting
    4. A3.4 Branching and Merging
    5. A3.5 Sharing and Updating Projects
    6. A3.6 Inspection and Comparison
    7. A3.7 Debugging
    8. A3.8 Patching
    9. A3.9 Email
    10. A3.10 External Systems
    11. A3.11 Administration
    12. A3.12 Plumbing Commands
2nd Edition

Git in Visual Studio Code

Visual Studio Code has git support built in.You will need to have git version 2.0.0 (or newer) installed.

  • See the diff of the file you are editing in the gutter.

  • The Git Status Bar (lower left) shows the current branch, dirty indicators, incoming and outgoing commits.

  • You can do the most common git operations from within the editor:

    • Initialize a repository.

    • Clone a repository.

    • Create branches and tags.

    • Stage and commit changes.

    • Push/pull/sync with a remote branch.

    • Resolve merge conflicts.

    • View diffs.

  • With an extension, you can also handle GitHub Pull Requests:https://marketplace.visualstudio.com/items?itemName=GitHub.vscode-pull-request-github.

The official documentation can be found here: https://code.visualstudio.com/Docs/editor/versioncontrol.

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Git is now the default version control experience in Visual Studio 2019. Since version 16.6, we've worked on building out the feature set and iterating on it based on your feedback. The new Git experience is turned on by default for everyone with the release of version 16.8.

Tip

Git is the most widely used modern version control system, so whether you’re a professional developer or if you’re learning how to code, Git can be very useful to you. If you are new to Git, the https://git-scm.com/ website is a good place to start. There, you’ll find cheat sheets, a popular online book, and Git Basics videos.

How to use Git in Visual Studio

We'll walk you through how to use the new Git experience in Visual Studio 2019, but if you'd like to take a quick tour first, check out the following video:
Video length: 5.27 minutes

There are three ways to start using Git with Visual Studio to be more productive:

  • Open an existing Git repository. If your code is already on your machine, you can open it by using File > Open > Project/Solution (or Folder) and Visual Studio automatically detects if it has an initialized Git repository.
  • Create a new Git repository. If your code is not associated with Git, you can create a new Git repository.
  • Clone an existing Git repository. If the code that you would like to work on is not on your machine, you can clone any existing remote repositories.

Note

Starting also with version 16.8, Visual Studio 2019 includes a fully integrated GitHub account experience. You can now add both GitHub and GitHub Enterprise accounts to your keychain. You’ll be able to add and leverage them just as you do with Microsoft accounts, which means that you’ll have an easier time accessing your GitHub resources across Visual Studio. For more information, see the Work with GitHub accounts in Visual Studio page.

Create a new Git repository

If your code is not associated with Git, you can start by creating a new Git repository. To do so, select Git > Create Git Repository from the menu bar. Then, in the Create a Git repository dialog box, enter your information.

The Create a Git repository dialog box makes it easy to push your new repository to GitHub. By default, your new repository is private, which means that you are the only one who can access it. If you uncheck the box, your repository will be public, which means that anyone on GitHub can view it.

Tip

Whether your repository is public or private, it's best to have a remote backup of your code stored securely on GitHub even if you are not working with a team. This also makes your code available to you no matter what computer you're using.

You can choose to create a local-only Git repository by using the Local only option. Or, you can link your local project with an existing empty remote repository on Azure DevOps or any other Git provider by using the Existing Remote option.

Clone an existing Git repository

Visual Studio includes a straightforward clone experience. If you know the URL of the repository that you would like to clone, you can paste the URL in the Repository location section and then choose the disk location you would like Visual Studio to clone to.

If you don’t know the repository URL, Visual Studio makes it easy to browse to and then clone your existing GitHub or Azure DevOps repository.

Open an existing local repository

After you’ve cloned a repository or created one, Visual Studio detects the Git repository and adds it to your list of Local Repositories in the Git menu. From here, you can quickly access and switch between your Git repositories.

View files in Solution Explorer

When you clone a repository or open a local repository, Visual Studio switches you into that Git context by saving and closing any previously open solutions and projects. Solution Explorer loads the folder at the root of the Git repository and scans the directory tree for any View files. These include files such as CMakeLists.txt or those with the .sln file extension.

Visual Studio adjusts its View based on which View file you load in Solution Explorer:

  • If you clone a repository that contains a single .sln file, then Solution Explorer directly loads that solution for you.
  • If Solution Explorer doesn’t detect any .sln files in your repository, then by default it loads Folder View.
  • If your repository has more than one .sln file, then Solution Explorer shows you the list of available Views for you to choose from.

You can toggle between the currently open View and the list of Views by using the Switch Views button in the Solution Explorer toolbar.

Git Changes window

Git tracks file changes in your repo as you work, and separates the files in your repo into three categories. These changes are equivalent to what you would see when you enter the git status command in the command line:

  • Unmodified files: These files haven't changed since your last commit.
  • Modified files: These files have changes since your last commit, but you haven't yet staged them for the next commit.
  • Staged files: These files have changes that will be added to the next commit.

As you do your work, Visual Studio keeps track of the file changes to your project in the Changes section of the Git Changes window.

When you are ready to stage changes, click the + (plus) button on each file you want to stage, or right-click a file and then select Stage. You can also stage all your modified files with one click by using the stage all + (plus) button at the top of the Changes section.

When you stage a change, Visual Studio creates a Staged Changes section. Azure storage account explorer download. Only changes in the Staged Changes section are added to the next commit, which you can do by selecting Commit Staged. The equivalent command for this action is git commit -m 'Your commit message'. Changes can also be unstaged by clicking the (minus) button. The equivalent command for this action is git reset <file_path> to unstage a single file or git reset <directory_path> to unstage all the files in a directory.

You can also choose not to stage your modified files by skipping the staging area. In this case, Visual Studio allows you to commit your changes directly without having to stage them. Just enter your commit message and then select Commit All. The equivalent command for this action is git commit -a.

Using Git With Visual Studio Code

Visual Studio also makes it easy to commit and sync with one click by using the Commit All and Push and Commit All and Sync shortcuts. When you double-click any file in the Changes and the Staged changes sections, you can see a line-by-line comparison with the unmodified version of the file.

Tip

You can associate an Azure DevOps work item with a commit by using the '#' character if you are connected to the Azure DevOps repository. You can connect your Azure DevOps repository through Team Explorer > Manage Connections.

Select an existing branch

Visual Studio displays the current branch in the selector at the top of the Git Changes window.

The current branch is also available in the status bar on the bottom-right corner of the Visual Studio IDE.

From both locations, you can switch between existing branches.

Create a new branch

You can also create a new branch. The equivalent command for this action is git checkout -b <branchname>.

Creating a new branch is as simple as entering the branch name and basing it off an existing branch.

You can choose an existing local or remote branch as the base. The Checkout branch checkbox automatically switches you to the newly created branch. The equivalent command for this action is git checkout -b <new-branch><existing-branch>.

Git Repository window

Visual Studio has a new Git Repository window, which is a consolidated view of all the details in your repository, including all of the branches, remotes, and commit histories. You can access this window directly from either Git or View on the menu bar or from the status bar.

Manage branches

When you select Manage Branches from the Git menu, you’ll see the branches tree-view in the Git Repository window. From the left pane, you can use the right-click context menu to checkout branches, create new branches, merge, rebase, cherry-pick, and more. When you click the branch, you can see a preview of its commit history in the right pane.

Incoming and outgoing commits

When you fetch a branch, the Git Changes window has an indicator under the branch drop-down, which displays the number of unpulled commits from the remote branch. This indicator also shows you the number of unpushed local commits.

The indicator also functions as a link to take you to the commit history of that branch in the Git Repository window. The top of the history now displays the details of these incoming and outgoing commits. From here, you can also decide to Pull or Push the commits.

Commit Details

When you double-click a Commit, Visual Studio opens its details in a separate tool window. From here you can revert the commit, reset the commit, amend the commit message, or create a tag on the commit. When you click a changed file in the commit, Visual Studio opens the side-by-side Diff view of the commit and its parent.

Handle merge conflicts

Conflicts can occur during a merge if two developers modify the same lines in a file and Git doesn’t automatically know which is correct. Git halts the merge and informs you that you are in a conflicted state.

Visual Studio makes it easy to identify and resolve a merge conflict. First, the Git Repository window shows a gold info bar at the top of the window.

The Git Changes window also displays a ‘Merge is in progress with conflicts’ message, with the unmerged files in their separate section below it.

But if you have neither of these windows open, and instead you go to the file that has merge conflicts, you won’t have to search for the following text:

Instead, Visual Studio displays a gold info bar on the top of the page that indicates that the opened file has conflicts. Then, you can click the link to open the Merge Editor.

The Merge Editor

The Merge Editor in Visual Studio is a three-way merge tool that displays the incoming changes, your current changes, and the result of the merge. You can use the tool bar at the top level of the Merge Editor to navigate between conflicts and auto-merged differences in the file.

Using Git With Visual Studio Code Online

You can also use the toggles to show/hide differences, show/hide word differences, and customize the layout. There are checkboxes on the top of each side that you can use to take all the changes from one side or the other. But to take individual changes, you can click the checkboxes to the left of the conflicting lines on either side. Finally, when you finish resolving the conflicts, you can select the Accept Merge button in the Merge Editor. You then write a commit message and commit the changes to complete the resolution.

Personalize your Git settings

To personalize and customize your Git settings at a repository level as well as at a global level, go to either Git > Settings on the menu bar, or to Tools > Options > Source Control on the menu bar. Then, choose the options you want.

How to use the full Team Explorer experience in Visual Studio

The new Git experience is the default version control system in Visual Studio 2019 from version 16.8 onwards. However, if you want to turn it off, you can. Go to Tools > Options > Environment > Preview Features and then toggle the New Git user experience checkbox, which will switch you back to Team Explorer for Git.

What's next

While the new Git experience is now on by default in Visual Studio 2019 version 16.8, we continue to add new features to enhance the experience. If you'd like to check out new updates to the Git experience in a Preview release, you can download and install it from the Visual Studio Preview page.

Important

If you have a suggestion for us, please let us know! We appreciate the opportunity to engage with you on design decisions via the Developer Community portal.

See also

Using Git With Visual Studio Code

  • Get Started with Git and GitHub in Visual Studio tutorial on Microsoft Learn
  • Getting started with Git in Visual Studio video on YouTube
  • Announcing the Release of the Git Experience in Visual Studio blog post
  • The launch of the new Git experience video on YouTube
  • The Visual Studio Toolbox series presents: The new Git experience video on Channel 9 and on YouTube
  • Exciting new updates to the Git experience in Visual Studio blog post
  • Improved Git Experience in Visual Studio 2019 blog post