Go takes a unique approach to manage the code files with the introduction of a $GOPATH
directory which contains all the go code on the machine. Note that this is different from the $GOROOT
environment variable which states where go is installed on the machine. We have to define the $GOPATH
variable before using the language, in *nix systems there is a file called .profile
we need to append the below export statement to the file. The concept behind gopath is a novel one, where we can link to any go code at any instant of time without ambiguity.
Starting from go 1.8, the GOPATH environment variable now has a default value if it not set: it defaults to $HOME/go
on Unix and %USERPROFILE%/go
on Windows.
On Unix-like systems, the variable should be used like this:
export GOPATH=${HOME}/mygo
In Windows, you need to create a new environment variable called GOPATH, then set its value to c:\mygo
( This value depends on where your workspace is located )
It's OK to have more than one path (workspace) in $GOPATH
, but remember that you have to use :
(;
in Windows) to separate them. At this point, go get
will save the content to your first path in $GOPATH
. It is highly recommended to not have multiples versions, the worst case is to create a folder by the name of your project right inside $GOPATH
, it breaks everything that the creators were wishing to change in programming with the creation of go language because when you create a folder inside $GOPATH
you will reference your packages as directly as , and this breaks all the applications which will import your package because the go get
won't find your package. Please follow conventions, there is a reason conventions are created.
In $GOPATH
, you must have three folders as follows:
src
for source files whose suffix is .go, .c, .g, .s.pkg
for compiled files whose suffix is .a.bin
for executable files
In this book, I use mygo
as my only path in $GOPATH
.
Create package source files and folders like $GOPATH/src/mymath/sqrt.go
(mymath
is the package name) ( Author uses mymath
as his package name, and the same name for the folder that contains the package source files)
Every time you create a package, you should create a new folder in the src
directory, with the notable exception of main, for which main
folder creation is optional. Folder names are usually the same as the package that you are going to use. You can have multi-level directories if you want to. For example, if you create the directory $GOPATH/src/github.com/astaxie/beedb
, then the package path would be github.com/astaxie/beedb
. The package name will be the last directory in your path, which is beedb
in this case.
Execute following commands. ( Now author goes back to talk examples )
cd $GOPATH/src
mkdir mymath
Create a new file called sqrt.go
, type the following content to your file.
// Source code of $GOPATH/src/mymath/sqrt.go
package mymath
func Sqrt(x float64) float64 {
z := 0.0
for i := 0; i < 1000; i++ {
z -= (z*z - x) / (2 * x)
}
return z
}
Now my package directory has been created and its code has been written. I recommend that you use the same name for your packages as their corresponding directories, and that the directories contain all of the package source files.
We've already created our package above, but how do we compile it for practical purposes? There are two ways to do this.
- Switch your work path to the directory of your package, then execute the
go install
command. - Execute the above command except with a file name, like
go install mymath
.
After compiling, we can open the following folder.
cd $GOPATH/pkg/${GOOS}_${GOARCH}
// you can see the file was generated
mymath.a
The file whose suffix is .a
is the binary file of our package. How do we use it?
Obviously, we need to create a new application to use it.
Create a new application package called mathapp
.
cd $GOPATH/src
mkdir mathapp
cd mathapp
vim main.go
Write the following content to main.go.
//$GOPATH/src/mathapp/main.go source code.
package main
import (
"mymath"
"fmt"
)
func main() {
fmt.Printf("Hello, world. Sqrt(2) = %v\n", mymath.Sqrt(2))
}
To compile this application, you need to switch to the application directory, which in this case is $GOPATH/src/mathapp
, then execute the go install
command. Now you should see an executable file called mathapp
was generated in the directory $GOPATH/bin/
. To run this program, use the ./mathapp
command. You should see the following content in your terminal.
Hello world. Sqrt(2) = 1.414213562373095
Go has a tool for installing remote packages, which is a command called go get
. It supports most open source communities, including Github, Google Code, BitBucket, and Launchpad.
go get github.com/astaxie/beedb
You can use go get -u …
to update your remote packages and it will automatically install all the dependent packages as well.
This tool will use different version control tools for different open source platforms. For example, git
for Github and hg
for Google Code. Therefore, you have to install these version control tools before you use go get
.
After executing the above commands, the directory structure should look like following.
$GOPATH
src
|-github.com
|-astaxie
|-beedb
pkg
|--${GOOS}_${GOARCH}
|-github.com
|-astaxie
|-beedb.a
Actually, go get
clones source code to the $GOPATH/src
of the local file system, then executes go install
.
You can use remote packages in the same way that we use local packages.
import "github.com/astaxie/beedb"
If you've followed all of the above steps, your directory structure should now look like the following.
bin/
mathapp
pkg/
${GOOS}_${GOARCH}, such as darwin_amd64, linux_amd64
mymath.a
github.com/
astaxie/
beedb.a
src/
mathapp
main.go
mymath/
sqrt.go
github.com/
astaxie/
beedb/
beedb.go
util.go
Now you are able to see the directory structure clearly: bin
contains executable files, pkg
contains compiled files and src
contains package source files.
(The format of environment variables in Windows is %GOPATH%
, however this book mainly follows the Unix-style, so Windows users need to replace these yourself.)
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