README
¶
Qimranut
Getting started
To make it easy for you to get started with GitLab, here's a list of recommended next steps.
Already a pro? Just edit this README.md and make it your own. Want to make it easy? Use the template at the bottom!
Add your files
- Create or upload files
- Add files using the command line or push an existing Git repository with the following command:
cd existing_repo
git remote add origin https://gitlab.xaminim.com/qliphoth/qimranut.git
git branch -M main
git push -uf origin main
Integrate with your tools
Collaborate with your team
- Invite team members and collaborators
- Create a new merge request
- Automatically close issues from merge requests
- Enable merge request approvals
- Automatically merge when pipeline succeeds
Test and Deploy
Use the built-in continuous integration in GitLab.
- Get started with GitLab CI/CD
- Analyze your code for known vulnerabilities with Static Application Security Testing(SAST)
- Deploy to Kubernetes, Amazon EC2, or Amazon ECS using Auto Deploy
- Use pull-based deployments for improved Kubernetes management
- Set up protected environments
Editing this README
When you're ready to make this README your own, just edit this file and use the handy template below (or feel free to structure it however you want - this is just a starting point!). Thank you to makeareadme.com for this template.
Suggestions for a good README
Every project is different, so consider which of these sections apply to yours. The sections used in the template are suggestions for most open source projects. Also keep in mind that while a README can be too long and detailed, too long is better than too short. If you think your README is too long, consider utilizing another form of documentation rather than cutting out information.
Name
Choose a self-explaining name for your project.
Description
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Badges
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Visuals
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Installation
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Usage
Use examples liberally, and show the expected output if you can. It's helpful to have inline the smallest example of usage that you can demonstrate, while providing links to more sophisticated examples if they are too long to reasonably include in the README.
Support
Tell people where they can go to for help. It can be any combination of an issue tracker, a chat room, an email address, etc.
Roadmap
If you have ideas for releases in the future, it is a good idea to list them in the README.
Contributing
State if you are open to contributions and what your requirements are for accepting them.
For people who want to make changes to your project, it's helpful to have some documentation on how to get started. Perhaps there is a script that they should run or some environment variables that they need to set. Make these steps explicit. These instructions could also be useful to your future self.
You can also document commands to lint the code or run tests. These steps help to ensure high code quality and reduce the likelihood that the changes inadvertently break something. Having instructions for running tests is especially helpful if it requires external setup, such as starting a Selenium server for testing in a browser.
Authors and acknowledgment
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License
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Project status
If you have run out of energy or time for your project, put a note at the top of the README saying that development has slowed down or stopped completely. Someone may choose to fork your project or volunteer to step in as a maintainer or owner, allowing your project to keep going. You can also make an explicit request for maintainers.
Documentation
¶
Overview ¶
Package pretty provides pretty-printing for Go values. This is useful during debugging, to avoid wrapping long output lines in the terminal.
It provides a function, Formatter, that can be used with any function that accepts a format string. It also provides convenience wrappers for functions in packages fmt and log.
Index ¶
- func Diff(a, b interface{}) (desc []string)
- func Errorf(format string, a ...interface{}) error
- func Fdiff(w io.Writer, a, b interface{})
- func Formatter(x interface{}) (f fmt.Formatter)
- func Fprintf(w io.Writer, format string, a ...interface{}) (n int, error error)
- func Ldiff(l Logfer, a, b interface{})
- func Log(a ...interface{})
- func Logf(format string, a ...interface{})
- func Logln(a ...interface{})
- func Pdiff(p Printfer, a, b interface{})
- func Print(a ...interface{}) (n int, errno error)
- func Printf(format string, a ...interface{}) (n int, errno error)
- func Println(a ...interface{}) (n int, errno error)
- func Sprint(a ...interface{}) string
- func Sprintf(format string, a ...interface{}) string
- type Logfer
- type Printfer
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func Diff ¶
func Diff(a, b interface{}) (desc []string)
Diff returns a slice where each element describes a difference between a and b.
func Errorf ¶
Errorf is a convenience wrapper for fmt.Errorf.
Calling Errorf(f, x, y) is equivalent to fmt.Errorf(f, Formatter(x), Formatter(y)).
func Formatter ¶
Formatter makes a wrapper, f, that will format x as go source with line breaks and tabs. Object f responds to the "%v" formatting verb when both the "#" and " " (space) flags are set, for example:
fmt.Sprintf("%# v", Formatter(x))
If one of these two flags is not set, or any other verb is used, f will format x according to the usual rules of package fmt. In particular, if x satisfies fmt.Formatter, then x.Format will be called.
func Fprintf ¶
Fprintf is a convenience wrapper for fmt.Fprintf.
Calling Fprintf(w, f, x, y) is equivalent to fmt.Fprintf(w, f, Formatter(x), Formatter(y)).
func Ldiff ¶
func Ldiff(l Logfer, a, b interface{})
Ldiff prints to l a description of the differences between a and b. It calls Logf once for each difference, with no trailing newline. The standard library testing.T and testing.B are Logfers.
func Log ¶
func Log(a ...interface{})
Log is a convenience wrapper for log.Printf.
Calling Log(x, y) is equivalent to log.Print(Formatter(x), Formatter(y)), but each operand is formatted with "%# v".
func Logf ¶
func Logf(format string, a ...interface{})
Logf is a convenience wrapper for log.Printf.
Calling Logf(f, x, y) is equivalent to log.Printf(f, Formatter(x), Formatter(y)).
func Logln ¶
func Logln(a ...interface{})
Logln is a convenience wrapper for log.Printf.
Calling Logln(x, y) is equivalent to log.Println(Formatter(x), Formatter(y)), but each operand is formatted with "%# v".
func Pdiff ¶
func Pdiff(p Printfer, a, b interface{})
Pdiff prints to p a description of the differences between a and b. It calls Printf once for each difference, with no trailing newline. The standard library log.Logger is a Printfer.
func Print ¶
Print pretty-prints its operands and writes to standard output.
Calling Print(x, y) is equivalent to fmt.Print(Formatter(x), Formatter(y)), but each operand is formatted with "%# v".
func Printf ¶
Printf is a convenience wrapper for fmt.Printf.
Calling Printf(f, x, y) is equivalent to fmt.Printf(f, Formatter(x), Formatter(y)).
func Println ¶
Println pretty-prints its operands and writes to standard output.
Calling Println(x, y) is equivalent to fmt.Println(Formatter(x), Formatter(y)), but each operand is formatted with "%# v".
Source Files