Swift和C#的基本语法对比

Recently, Apple announced and released a beta version of the new Swift programming language for building iOS and OSX applications. Swift is a modern language with the power of Objective-C without the "baggage of C." While we can‘t argue that Objective-C has it‘s difficulties being tied closely to C, but the real question is... How does Swift compare to a modern language like C#?

Please, keep in mind that this post is not supposed to be an Apple vs Microsoft post. There are a lot of developers that use C# every day and the purpose of this post is to help them understand what Swift offers at a language level compared to C#. And, before you start the "apples and oranges" arguments, it‘s worth pointing out that using Xamarinyou can develop iOS and OSX apps using C#.

Now let the code mostly speak for itself...

Both languages support the same syntax for code comments; the familiar C-style comments.

Swift, like C#, is a type safe language. It also supports type inference so you don‘t have to specify the type when declaring the variables as the compiler can infer (or detect) the type by evaluating the assignment of the variable. While C# is slightly more verbose when declaring constants; both languages are just as elegant at declaring variables using type inference.

While type inference is nice, but when you don‘t immediately assign a value to the variable you may need to explicitly specify the type of the variable.

You may notice the lack of the semi-colon in Swift. Yes, Swift is a mostly C-style syntax without requiring semi-colons. Swift does support and require the use of semi-colons if you want to have multiple code statements on the same line.

Both languages support the use of Unicode characters as variable names. Basically, you could use Emoticons or other non-ASCII characters as variable names if you want, but who does that anyway?

Both languages have static constants for accessing the minimum and maximum bounds for the different Integer types.

Both languages, as mentioned above, support type inference where the compiler is able to detect what type the declared variable is from it‘s immediate assignment.

Also in the above type inference example you‘ll notice that when you declare a variable and immediately assign a value that is the result of 2 other variables it will still infer the type.

Both have similar methods of comparing strings.

The both also have similar methods of detecting if the beginning or ending of the string match‘s a specified string.

You may notice from the above example that parenthesis are not required with IF statements in Swift.

Both languages support similar methods of converting strings to Upper or Lower Case.

Both languages support declaring and assigning Arrays using a single line of code.

Working with Arrays have slight differences between the languages.

Both languages support similar methods of declaring dictionaries.

Working with Dictionaries have slight differences between the languages.

The above examples for Arrays and Dictionaries already showed examples of using a For-In loop to iterate through the items in those collections. Here are some additional methods of iterating using a For Loop.

The range example of Swift is rather interesting in the method of shorthand it uses for it‘s definition.

Both languages support If...Then conditional statements. Swift is a little different that it doesn‘t require parenthesis around the match conditions.

Both languages support Switch statements.

Switch statements are rather similar in both languages except that in Swift case statements don‘t automatically pass on to the next like in C#. As a result C# requires the use of the break keywords to exit the Switch statement, unless you want to fall through to the next case. While in Swift you must use the "fallthrough" keyword to tell it to pass on through to the next case statement. More information on this can be found in the Swift documentation.

An additional feature that Swift supports with Switch statements is ranges within the Case statements. This is something that C# does not support.

While Functions are a much bigger comparison to be made, here‘s a basic example:

The post Basic Comparison of Functions in C# and Swift goes into much more depth on Functions; as that is a much bigger comparison that could fit into this post.

This concludes my basic comparison of C# and Apple Swift programming languages. The two languages are rather similar in many respects; at least in what I‘ve compared thus far. More language feature comparisons will have to wait for future posts.

One of the bigger differences that‘s worth pointing out explicitly is the difference in how each language handles Array‘s. Arrays in Swift are extremely similar to the List<> class in C#; which is what most developers use today in C# instead of arrays anyway (unless performance requires it.)

You can find more information about the Swift programming language on Apple‘s site at the following links: