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Go Programming Cookbook

You're reading from   Go Programming Cookbook Over 85 recipes to build modular, readable, and testable Golang applications across various domains

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Product type Paperback
Published in Jul 2019
Publisher Packt
ISBN-13 9781789800982
Length 434 pages
Edition 2nd Edition
Languages
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Author (1):
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Aaron Torres Aaron Torres
Author Profile Icon Aaron Torres
Aaron Torres
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Toc

Table of Contents (16) Chapters Close

Preface 1. I/O and Filesystems FREE CHAPTER 2. Command-Line Tools 3. Data Conversion and Composition 4. Error Handling in Go 5. Network Programming 6. All about Databases and Storage 7. Web Clients and APIs 8. Microservices for Applications in Go 9. Testing Go Code 10. Parallelism and Concurrency 11. Distributed Systems 12. Reactive Programming and Data Streams 13. Serverless Programming 14. Performance Improvements, Tips, and Tricks 15. Other Books You May Enjoy

Using the bytes and strings packages

The bytes and strings packages have a number of useful helpers to work with and convert the data from string to byte types, and vice versa. They allow the creation of buffers that work with a number of common I/O interfaces.

How to do it...

The following steps cover how to write and run your application:

  1. From your Terminal or console application, create a new directory called ~/projects/go-programming-cookbook/chapter1/bytestrings.
  2. Navigate to this directory.
  3. Run the following command:
          $ go mod init github.com/PacktPublishing/Go-Programming-Cookbook-Second-Edition/chapter1/bytestrings

You should see a file called go.mod that contains the following content:

module github.com/PacktPublishing/Go-Programming-Cookbook-Second-Edition/chapter1/bytestrings    
  1. Copy the tests from~/projects/go-programming-cookbook-original/chapter1/bytestrings or use this as an exercise to write some of your own code!
  2. Create a file calledbuffer.gowith the following contents:
        package bytestrings

import (
"bytes"
"io"
"io/ioutil"
)

// Buffer demonstrates some tricks for initializing bytes
//Buffers
// These buffers implement an io.Reader interface
func Buffer(rawString string) *bytes.Buffer {

// we'll start with a string encoded into raw bytes
rawBytes := []byte(rawString)

// there are a number of ways to create a buffer from
// the raw bytes or from the original string
var b = new(bytes.Buffer)
b.Write(rawBytes)

// alternatively
b = bytes.NewBuffer(rawBytes)

// and avoiding the initial byte array altogether
b = bytes.NewBufferString(rawString)

return b
}

// ToString is an example of taking an io.Reader and consuming
// it all, then returning a string
func toString(r io.Reader) (string, error) {
b, err := ioutil.ReadAll(r)
if err != nil {
return "", err
}
return string(b), nil
}
  1. Create a file calledbytes.gowith the following contents:
        package bytestrings

import (
"bufio"
"bytes"
"fmt"
)

// WorkWithBuffer will make use of the buffer created by the
// Buffer function
func WorkWithBuffer() error {
rawString := "it's easy to encode unicode into a byte
array"

b := Buffer(rawString)

// we can quickly convert a buffer back into byes with
// b.Bytes() or a string with b.String()
fmt.Println(b.String())

// because this is an io Reader we can make use of
// generic io reader functions such as
s, err := toString(b)
if err != nil {
return err
}
fmt.Println(s)

// we can also take our bytes and create a bytes reader
// these readers implement io.Reader, io.ReaderAt,
// io.WriterTo, io.Seeker, io.ByteScanner, and
// io.RuneScanner interfaces
reader := bytes.NewReader([]byte(rawString))

// we can also plug it into a scanner that allows
// buffered reading and tokenization
scanner := bufio.NewScanner(reader)
scanner.Split(bufio.ScanWords)

// iterate over all of the scan events
for scanner.Scan() {
fmt.Print(scanner.Text())
}

return nil
}
  1. Create a file called string.go with the following contents:
        package bytestrings

import (
"fmt"
"io"
"os"
"strings"
)

// SearchString shows a number of methods
// for searching a string
func SearchString() {
s := "this is a test"

// returns true because s contains
// the word this
fmt.Println(strings.Contains(s, "this"))

// returns true because s contains the letter a
// would also match if it contained b or c
fmt.Println(strings.ContainsAny(s, "abc"))

// returns true because s starts with this
fmt.Println(strings.HasPrefix(s, "this"))

// returns true because s ends with this
fmt.Println(strings.HasSuffix(s, "test"))
}

// ModifyString modifies a string in a number of ways
func ModifyString() {
s := "simple string"

// prints [simple string]
fmt.Println(strings.Split(s, " "))

// prints "Simple String"
fmt.Println(strings.Title(s))

// prints "simple string"; all trailing and
// leading white space is removed
s = " simple string "
fmt.Println(strings.TrimSpace(s))
}

// StringReader demonstrates how to create
// an io.Reader interface quickly with a string
func StringReader() {
s := "simple string\n"
r := strings.NewReader(s)

// prints s on Stdout
io.Copy(os.Stdout, r)
}
  1. Create a new directory named example and navigate to it.
  2. Create a main.go file with the following contents:
        package main

import "github.com/PacktPublishing/
Go-Programming-Cookbook-Second-Edition/
chapter1/bytestrings"

func main() {
err := bytestrings.WorkWithBuffer()
if err != nil {
panic(err)
}

// each of these print to stdout
bytestrings.SearchString()
bytestrings.ModifyString()
bytestrings.StringReader()
}
  1. Run go run ..
  2. You may also run the following:
          $ go build
$ ./example

You should see the following output:

          $ go run .
          
it's easy to encode unicode into a byte array ??
it's easy to encode unicode into a byte array ??
it'seasytoencodeunicodeintoabytearray??true
true
true
true
[simple string]
Simple String
simple string
simple string
  1. If you copied or wrote your own tests, go up one directory and run go test, and ensure that all tests pass.

How it works...

The bytes library provides a number of convenience functions when working with data. A buffer, for example, is far more flexible than an array of bytes when working with stream-processing libraries or methods. Once you've created a buffer, it can be used to satisfy an io.Reader interface so that you can take advantage of ioutil functions to manipulate the data. For streaming applications, you'd probably want to use a buffer and a scanner. The bufio package comes in handy for these cases. Sometimes, using an array or slice is more appropriate for smaller datasets or when you have a lot of memory on your machine.

Go provides a lot of flexibility in converting data between interfaces when using these basic types—it's relatively simple to convert between strings and bytes. When working with strings, thestringspackage provides a number of convenience functions to work with, search, and manipulate strings. In some cases, a good regular expression may be appropriate, but most of the time, thestringsandstrconvpackages are sufficient. Thestringspackage allows you to make a string look like a title, split it into an array, or trim whitespace. It also provides aReaderinterface of its own that can be used instead of thebytespackage reader type.

You have been reading a chapter from
Go Programming Cookbook - Second Edition
Published in: Jul 2019
Publisher: Packt
ISBN-13: 9781789800982
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