Hello, World
You can find all the code for this chapter here
It is traditional for your first program in a new language to be Hello, World.
Create a folder wherever you like
Put a new file in it called
hello.go
and put the following code inside it
To run it, type go run hello.go
.
How it works
When you write a program in Go, you will have a main
package defined with a main
func inside it. Packages are ways of grouping up related Go code together.
The func
keyword defines a function with a name and a body.
With import "fmt"
we are importing a package which contains the Println
function that we use to print.
How to test
How do you test this? It is good to separate your "domain" code from the outside world (side-effects). The fmt.Println
is a side effect (printing to stdout), and the string we send in is our domain.
So let's separate these concerns so it's easier to test
We have created a new function with func
, but this time, we've added another keyword, string,
to the definition. This means this function returns a string
.
Now create a new file called hello_test.go
where we are going to write a test for our Hello
function
Go modules?
The next step is to run the tests. Enter go test
in your terminal. If the tests pass, then you are probably using an earlier version of Go. However, if you are using Go 1.16 or later, the tests will likely not run. Instead, you will see an error message like this in the terminal:
What's the problem? In a word, modules. Luckily, the problem is easy to fix. Enter go mod init example.com/hello
in your terminal. That will create a new file with the following contents:
This file tells the go
tools essential information about your code. If you planned to distribute your application, you would include where the code was available for download as well as information about dependencies. The name of the module, example.com/hello, usually refers to a URL where the module can be found and downloaded. For compatibility with tools we'll start using soon, make sure your module's name has a dot somewhere in it, like the dot in .com of example.com/hello. For now, your module file is minimal, and you can leave it that way. To read more about modules, you can check out the reference in the Golang documentation. We can get back to testing and learning Go now since the tests should run, even on Go 1.16.
In future chapters, you will need to run go mod init SOMENAME
in each new folder before running commands like go test
or go build
.
Back to Testing
Run go test
in your terminal. It should've passed! Just to check, try deliberately breaking the test by changing the want
string.
Notice how you have not had to pick between multiple testing frameworks and then figure out how to install them. Everything you need is built into the language, and the syntax is the same as the rest of the code you will write.
Writing tests
Writing a test is just like writing a function, with a few rules
It needs to be in a file with a name like
xxx_test.go
The test function must start with the word
Test
The test function takes one argument only
t *testing.T
To use the
*testing.T
type, you need toimport "testing"
, like we did withfmt
in the other file
For now, it's enough to know that your t
of type *testing.T
is your "hook" into the testing framework so you can do things like t.Fail()
when you want to fail.
We've covered some new topics:
if
if
If statements in Go are very much like other programming languages.
Declaring variables
We're declaring some variables with the syntax varName := value
, which lets us reuse some values in our test for readability.
t.Errorf
t.Errorf
We are calling the Errorf
method on our t
, which will print out a message and fail the test. The f
stands for format, which allows us to build a string with values inserted into the placeholder values %q
. When you make the test fail, it should be clear how it works.
You can read more about the placeholder strings in the fmt documentation. For tests, %q
is very useful as it wraps your values in double quotes.
We will later explore the difference between methods and functions.
Go's documentation
Another quality-of-life feature of Go is the documentation. We just saw the documentation for the fmt package at the official package viewing website, and Go also provides ways for quickly getting at the documentation offline.
Go has a built-in tool, doc, which lets you examine any package installed on your system, or the module you're currently working on. To view that same documentation for the Printing verbs:
Go's second tool for viewing documentation is the pkgsite command, which powers Go's official package viewing website. You can install pkgsite with go install golang.org/x/pkgsite/cmd/pkgsite@latest
, then run it with pkgsite -open .
. Go's install command will download the source files from that repository and build them into an executable binary. For a default installation of Go, that executable will be in $HOME/go/bin
for Linux and macOS, and %USERPROFILE%\go\bin
for Windows. If you have not already added those paths to your $PATH var, you might want to do so to make running go-installed commands easier.
The vast majority of the standard library has excellent documentation with examples. Navigating to http://localhost:8080/testing would be worthwhile to see what's available to you.
Hello, YOU
Now that we have a test, we can iterate on our software safely.
In the last example, we wrote the test after the code had been written so that you could get an example of how to write a test and declare a function. From this point on, we will be writing tests first.
Our next requirement is to let us specify the recipient of the greeting.
Let's start by capturing these requirements in a test. This is basic test-driven development and allows us to make sure our test is actually testing what we want. When you retrospectively write tests, there is the risk that your test may continue to pass even if the code doesn't work as intended.
Now run go test
, you should have a compilation error
When using a statically typed language like Go it is important to listen to the compiler. The compiler understands how your code should snap together and work so you don't have to.
In this case the compiler is telling you what you need to do to continue. We have to change our function Hello
to accept an argument.
Edit the Hello
function to accept an argument of type string
If you try and run your tests again your hello.go
will fail to compile because you're not passing an argument. Send in "world" to make it compile.
Now when you run your tests, you should see something like
We finally have a compiling program but it is not meeting our requirements according to the test.
Let's make the test pass by using the name argument and concatenate it with Hello,
When you run the tests, they should now pass. Normally, as part of the TDD cycle, we should now refactor.
A note on source control
At this point, if you are using source control (which you should!) I would commit
the code as it is. We have working software backed by a test.
I wouldn't push to main though, because I plan to refactor next. It is nice to commit at this point in case you somehow get into a mess with refactoring - you can always go back to the working version.
There's not a lot to refactor here, but we can introduce another language feature, constants.
Constants
Constants are defined like so
We can now refactor our code
After refactoring, re-run your tests to make sure you haven't broken anything.
It's worth thinking about creating constants to capture the meaning of values and sometimes to aid performance.
Hello, world... again
The next requirement is when our function is called with an empty string it defaults to printing "Hello, World", rather than "Hello, ".
Start by writing a new failing test
Here, we are introducing another tool in our testing arsenal: subtests. Sometimes, it is useful to group tests around a "thing" and then have subtests describing different scenarios.
A benefit of this approach is you can set up shared code that can be used in the other tests.
While we have a failing test, let's fix the code, using an if
.
If we run our tests we should see it satisfies the new requirement and we haven't accidentally broken the other functionality.
It is important that your tests are clear specifications of what the code needs to do. But there is repeated code when we check if the message is what we expect.
Refactoring is not just for the production code!
Now that the tests are passing, we can and should refactor our tests.
What have we done here?
We've refactored our assertion into a new function. This reduces duplication and improves the readability of our tests. We need to pass in t *testing.T
so that we can tell the test code to fail when we need to.
For helper functions, it's a good idea to accept a testing.TB
which is an interface that *testing.T
and *testing.B
both satisfy, so you can call helper functions from a test, or a benchmark (don't worry if words like "interface" mean nothing to you right now, it will be covered later).
t.Helper()
is needed to tell the test suite that this method is a helper. By doing this, when it fails, the line number reported will be in our function call rather than inside our test helper. This will help other developers track down problems more easily. If you still don't understand, comment it out, make a test fail and observe the test output. Comments in Go are a great way to add additional information to your code, or in this case, a quick way to tell the compiler to ignore a line. You can comment out the t.Helper()
code by adding two forward slashes //
at the beginning of the line. You should see that line turn grey or change to another color than the rest of your code to indicate it's now commented out.
When you have more than one argument of the same type (in our case two strings) rather than having (got string, want string)
you can shorten it to (got, want string)
.
Back to source control
Now that we are happy with the code, I would amend the previous commit so that we only check in the lovely version of our code with its test.
Discipline
Let's go over the cycle again
Write a test
Make the compiler pass
Run the test, see that it fails and check the error message is meaningful
Write enough code to make the test pass
Refactor
On the face of it this may seem tedious but sticking to the feedback loop is important.
Not only does it ensure that you have relevant tests, it helps ensure you design good software by refactoring with the safety of tests.
Seeing the test fail is an important check because it also lets you see what the error message looks like. As a developer it can be very hard to work with a codebase when failing tests do not give a clear idea as to what the problem is.
By ensuring your tests are fast and setting up your tools so that running tests is simple you can get in to a state of flow when writing your code.
By not writing tests, you are committing to manually checking your code by running your software, which breaks your state of flow. You won't be saving yourself any time, especially in the long run.
Keep going! More requirements
Goodness me, we have more requirements. We now need to support a second parameter, specifying the language of the greeting. If a language is passed in that we do not recognise, just default to English.
We should be confident that we can easily use TDD to flesh out this functionality!
Write a test for a user passing in Spanish. Add it to the existing suite.
Remember not to cheat! Test first. When you try to run the test, the compiler should complain because you are calling Hello
with two arguments rather than one.
Fix the compilation problems by adding another string argument to Hello
When you try and run the test again it will complain about not passing through enough arguments to Hello
in your other tests and in hello.go
Fix them by passing through empty strings. Now all your tests should compile and pass, apart from our new scenario
We can use if
here to check the language is equal to "Spanish" and if so change the message
The tests should now pass.
Now it is time to refactor. You should see some problems in the code, "magic" strings, some of which are repeated. Try and refactor it yourself, with every change make sure you re-run the tests to make sure your refactoring isn't breaking anything.
French
Write a test asserting that if you pass in
"French"
you get"Bonjour, "
See it fail, check the error message is easy to read
Do the smallest reasonable change in the code
You may have written something that looks roughly like this
switch
switch
When you have lots of if
statements checking a particular value it is common to use a switch
statement instead. We can use switch
to refactor the code to make it easier to read and more extensible if we wish to add more language support later
Write a test to now include a greeting in the language of your choice and you should see how simple it is to extend our amazing function.
one...last...refactor?
You could argue that maybe our function is getting a little big. The simplest refactor for this would be to extract out some functionality into another function.
A few new concepts:
In our function signature we have made a named return value
(prefix string)
.This will create a variable called
prefix
in your function.It will be assigned the "zero" value. This depends on the type, for example
int
s are 0 and forstring
s it is""
.You can return whatever it's set to by just calling
return
rather thanreturn prefix
.
This will display in the Go Doc for your function so it can make the intent of your code clearer.
default
in the switch case will be branched to if none of the othercase
statements match.The function name starts with a lowercase letter. In Go, public functions start with a capital letter, and private ones start with a lowercase letter. We don't want the internals of our algorithm exposed to the world, so we made this function private.
Also, we can group constants in a block instead of declaring them on their own line. For readability, it's a good idea to use a line between sets of related constants.
Wrapping up
Who knew you could get so much out of Hello, world
?
By now you should have some understanding of:
Some of Go's syntax around
Writing tests
Declaring functions, with arguments and return types
if
,const
andswitch
Declaring variables and constants
The TDD process and why the steps are important
Write a failing test and see it fail so we know we have written a relevant test for our requirements and seen that it produces an easy to understand description of the failure
Writing the smallest amount of code to make it pass so we know we have working software
Then refactor, backed with the safety of our tests to ensure we have well-crafted code that is easy to work with
In our case, we've gone from Hello()
to Hello("name")
and then to Hello("name", "French")
in small, easy-to-understand steps.
Of course, this is trivial compared to "real-world" software, but the principles still stand. TDD is a skill that needs practice to develop, but by breaking problems down into smaller components that you can test, you will have a much easier time writing software.
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