You should also check out Facelets; there is a good introductory article on DeveloperWorks.
The Facelets <ui:insert/>
tag is comparable to the ASP.NET <asp:ContentPlaceHolder/>
tag used in master pages; it lets you provide default content for that area of the page, but this can be overridden.
To fill the Facelets template in another page, you start with a <ui:composition/>
element that points to the template file. This is roughly equivalent to declaring the MasterPageFile attribute in an ASP.NET page.
Inside the <ui:composition/>
element, you use <ui:define/>
elements to override the template defaults, similar to the way an <asp:Content/>
tag is used. These elements can contain any kind of content - from simple strings to JSF elements.
So, to bring it all together...
In master.xhtml:
<!-- HTML header content here -->
<ui:insert name="AreaOne">Default content for AreaOne</ui:insert>
<ui:insert name="AreaTwo">Default content for AreaTwo</ui:insert>
<!-- HTML footer content here -->
In page.xhtml:
<ui:composition template="/WEB-INF/templates/master.xhtml">
<ui:define name="AreaOne">Here is some new content</ui:define>
<ui:define name="AreaTwo">
<p>Some new content here too</p>
</ui:define>
</ui:composition>
And this will render as:
<!-- HTML header content here -->
Here is some new content
<p>Some new content here too</p>
<!-- HTML footer content here -->
You also get some other benefits with Facelets, such as the ability to reuse page components with different data.
(Edited to provide more information.)
C# language version history:
These are the versions of C# known about at the time of this writing:
- C# 1.0 released with .NET 1.0 and VS2002 (January 2002)
- C# 1.2 (bizarrely enough); released with .NET 1.1 and VS2003 (April 2003). First version to call
Dispose
on IEnumerator
s which implemented IDisposable
. A few other small features.
- C# 2.0 released with .NET 2.0 and VS2005 (November 2005). Major new features: generics, anonymous methods, nullable types, and iterator blocks
- C# 3.0 released with .NET 3.5 and VS2008 (November 2007). Major new features: lambda expressions, extension methods, expression trees, anonymous types, implicit typing (
var
), and query expressions
- C# 4.0 released with .NET 4 and VS2010 (April 2010). Major new features: late binding (
dynamic
), delegate and interface generic variance, more COM support, named arguments, tuple data type and optional parameters
- C# 5.0 released with .NET 4.5 and VS2012 (August 2012). Major features: async programming, and caller info attributes. Breaking change: loop variable closure.
- C# 6.0 released with .NET 4.6 and VS2015 (July 2015). Implemented by Roslyn. Features: initializers for automatically implemented properties, using directives to import static members, exception filters, element initializers,
await
in catch
and finally
, extension Add
methods in collection initializers.
- C# 7.0 released with .NET 4.7 and VS2017 (March 2017). Major new features: tuples, ref locals and ref return, pattern matching (including pattern-based switch statements), inline
out
parameter declarations, local functions, binary literals, digit separators, and arbitrary async returns.
- C# 7.1 released with VS2017 v15.3 (August 2017). New features: async main, tuple member name inference, default expression, and pattern matching with generics.
- C# 7.2 released with VS2017 v15.5 (November 2017). New features: private protected access modifier, Span<T>, aka interior pointer, aka stackonly struct, and everything else.
- C# 7.3 released with VS2017 v15.7 (May 2018). New features: enum, delegate and
unmanaged
generic type constraints. ref
reassignment. Unsafe improvements: stackalloc
initialization, unpinned indexed fixed
buffers, custom fixed
statements. Improved overloading resolution. Expression variables in initializers and queries. ==
and !=
defined for tuples. Auto-properties' backing fields can now be targeted by attributes.
- C# 8.0 released with .NET Core 3.0 and VS2019 v16.3 (September 2019). Major new features: nullable reference-types, asynchronous streams, indices and ranges, readonly members, using declarations, default interface methods, static local functions, and enhancement of interpolated verbatim strings.
- C# 9.0 released with .NET 5.0 and VS2019 v16.8 (November 2020). Major new features: init-only properties, records, with-expressions, data classes, positional records, top-level programs, improved pattern matching (simple type patterns, relational patterns, logical patterns), improved target typing (target-type
new
expressions, target typed ??
and ?
), and covariant returns. Minor features: relax ordering of ref
and partial
modifiers, parameter null checking, lambda discard parameters, native int
s, attributes on local functions, function pointers, static lambdas, extension GetEnumerator
, module initializers, and extending partial.
In response to the OP's question:
What are the correct version numbers for C#? What came out when? Why can't I find any answers about C# 3.5?
There is no such thing as C# 3.5 - the cause of confusion here is that the C# 3.0 is present in .NET 3.5. The language and framework are versioned independently, however - as is the CLR, which is at version 2.0 for .NET 2.0 through 3.5, .NET 4 introducing CLR 4.0, service packs notwithstanding. The CLR in .NET 4.5 has various improvements, but the versioning is unclear: in some places it may be referred to as CLR 4.5 (this MSDN page used to refer to it that way, for example), but the Environment.Version
property still reports 4.0.xxx.
As of May 3, 2017, the C# Language Team created a history of C# versions and features on their GitHub repository: Features Added in C# Language Versions. There is also a page that tracks upcoming and recently implemented language features.
Best Answer
I'm pretty sure I've only used master pages in the context of ASP.NET MVC so I'm not sure if it differs from web forms but in my experience they are not only excellent but I couldn't imagine not using them. Master pages are code inheritance to web pages.