To run the code in this vignette you’ll need to have a GitLab account and you need to generate a personal access token (PAT). See the GitLab documentation on how to generate PATs. In the Scopes section you only need to tick the api box.
https://gitlab.com/-/profile/personal_access_tokens
api
scope)GITLAB_COM_TOKEN
R code using ‘gitlabr’ to perform some easy, common GitLab actions can look like this:
library(gitlabr)
# Store your token in .Renviron and restart your session
usethis::edit_r_environ()
# Add: GITLAB_COM_TOKEN=YourTokenHere
# You can verify it worked
Sys.getenv("GITLAB_COM_TOKEN")
# connect as a fixed user to a GitLab instance
set_gitlab_connection(
gitlab_url = "https://gitlab.com/",
private_token = Sys.getenv("GITLAB_COM_TOKEN")
)
gl_list_groups(page = 1) # Returns all groups you have access to
gl_list_projects(page = 1) # Returns all projects on GitLab, so we limit to just the first page of results.
# It's unlikely that you'll want to use 'gitlabr' to interact with all the projects on GitLab, so a better approach is to define the project you want to work on. This is done by finding the the project ID on GitLab.com (it is listed right below the project name on the repo front page).
# Here we use the [project "repo.rtask"](https://gitlab.com/statnmap/repo.rtask)
my_project <- 20384533
gl_list_files(project = my_project)
# create a new issue
new_feature_issue <- gl_create_issue(
title = "Implement new feature",
project = my_project
)
# statnmap user ID
my_id <- 4809823
# assign issue to me
gl_assign_issue(
assignee_id = example_user$id,
issue_id = new_feature_issue$iid,
project = my_project
)
# List opened issues
gl_list_issues(
state = "opened",
project = my_project
)
# close the issue
gl_close_issue(
issue_id = new_feature_issue$iid,
project = my_project
)$state
tibble
to integrate seamless into dplyr’s data manipulation
mindset (often called the “tidyverse”)page
and per_page
if
necessary.This is the recommended way of using ‘gitlabr’. In order to avoid the
repeated specification of gitlab_con()
in the parameter
style, you can also set a global variable managed by ‘gitlabr’ to use a
specific connection function for every call:
gl_create_issue()
is an example function here, the
principle works for all convenience functions of ‘gitlabr’ starting with
gl_*()
Note that the set style is not purely functional, since
set_gitlab_connection()
changes a saved global variable
affecting the results of all future gitlab()
calls. You can
reset this variable to the default value using
unset_gitlab_connection()
.
All convenience wrappers accept a parameter gitlab_con()
specifying the function to use for the actual API call. Hence, you can
pass a GitLab connection (as returned by gl_connection()
)
with the R function call:
my_gitlab <- gl_connection(
gitlab_url = "https://about.gitlab.com/",
private_token = Sys.getenv("GITLAB_COM_TOKEN")
)
gl_create_issue("Implement new feature", project = my_project, gitlab_con = my_gitlab)
Again, gl_create_issue()
is an example function here,
the principle style works for all convenience functions of ‘gitlabr’
listed in the “Convenience function
list” below or user-defined functions as described in the section “Writing custom GitLab
request functions”.
‘gitlabr’ can also be used to create a .gitlab-ci.yml
file to test, build and check an R package using GitLab’s CI software.
See the use_gitlab_ci()
and related functions for
documentation.