32.2 Reading a Quick-Reference Entry
Each quick-reference entry contains quite a bit of information. The
sections that follow describe the structure of a quick-reference
entry, explaining what information is available, where it is found,
and what it means. While reading the descriptions that follow, you
will find it helpful to flip through the reference section itself to
find examples of the features being described.
32.2.1 Type Name, Namespace, Assembly, Type Category, and Flags
Each quick-reference entry begins with a four-part title that
specifies the name, namespace (followed by the assembly in
parentheses), and type category of the type. It may also specify
various additional flags that describe the type. The type name
appears in bold at the upper left of the title. The namespace and
assembly appear, in smaller print, in the lower left, below the type
name.
In the upper-right corner of the title, you may find a list of flags
that describe the type. The possible flags and their meanings are as
follows:
- ECMA
-
The type is part of the ECMA CLI specification.
- serializable
-
The type, or a supertype, implements
System.Runtime.Serialization.ISerializable or has
been flagged with the System.Serializable
attribute.
- marshal by reference
-
This class, or a superclass, derives from
System.MarshalByRefObject .
- context bound
-
This class, or a superclass, derives from
System.ContextBoundObject .
- disposable
-
The type implements the System.IDisposable
interface.
- flag
-
The enumeration is marked with the
System.FlagsAttribute .
The lower-right portion of the title indicates the
type category of the type
(class , delegate ,
enum , interface , or
struct ). The class category may include modifiers
such as sealed or abstract .
32.2.2 Description
The title of each quick-reference entry is followed by a short
description of the most important features of the type. This
description may be anywhere from a couple of sentences to several
paragraphs long.
32.2.3 Synopsis
The most important part of every quick-reference entry is the
synopsis, which follows the title and description. The synopsis for a
type looks a lot like its source code, except that the member bodies
are omitted, and some additional annotations are added. If you know
C# syntax, you can read the type synopsis.
The first line of the synopsis contains information about the type
itself. It begins with a list of type modifiers, such as
abstract and sealed . These
modifiers are followed by the class ,
delegate , enum ,
interface , or struct keyword,
and then by the name of the type. The type name may be followed by a
colon (:) and a supertype or interfaces that the type implements.
The type definition line is followed by a list of the members that
the type defines. This list includes only those members that are
explicitly declared in the type, are overridden from a base class, or
are implementations of an interface member. Members that are simply
inherited from a base class aren't shown; you will
need to look up the base class definition to find those members. Once
again, if you understand basic C# syntax, you should have no trouble
making sense of these lines. The listing for each member includes the
modifiers, type, and name of the member. For methods, the synopsis
also includes the type and name of each method parameter. The member
names are in boldface, so it is easy to scan the list of members
looking for the one you want. The names of method parameters are in
italics to indicate that they aren't to be used
literally. The member listings are printed on alternating gray and
white backgrounds to keep them visually separate.
32.2.3.1 Member availability and flags
Each member listing is a single line that defines the API for that
member. These listings use C# syntax, so their meaning is immediately
clear to any C# programmer. There is some auxiliary information
associated with each member synopsis, however, that requires
explanation.
The area to the right of the member synopsis displays a variety of
flags that provide additional information about the member. Some of
these flags indicate additional specification details that
don't appear in the member API itself.
The following flags may be displayed to the right of a member
synopsis:
- Overrides
-
Indicates that a method overrides a method in one of its supertypes.
The flag is followed by the name of the supertype that the method
overrides.
- Implements
-
Indicates that a method implements a method in an interface. The flag
is followed by the name of the interface that is implemented.
- =
-
For enumeration fields and constant fields, this flag is followed by
the constant value of the field. Only constants of primitive and
String types and constants with the value
null are displayed. Some constant values are
specification details, while others are implementation details. The
reason symbolic constants are defined, however, is so you can write
code that doesn't rely directly upon the constant
value. Use this flag to help you understand the type, but
don't rely upon the constant values in your own
programs.
32.2.3.2 Functional grouping of members
Within a type synopsis, the members aren't listed in
strict alphabetical order. Instead, they are broken into functional
groups and listed alphabetically within each group. Constructors,
events, fields, methods, and properties are all listed separately.
Instance methods are kept separate from static (class) methods.
Public members are listed separately from protected members. Grouping
members by category breaks a type down into smaller, more
comprehensible segments, making the type easier to understand. This
grouping also makes it easier for you to find a desired member.
Functional groups are separated from one another in a type synopsis
with C# comments, such as // Public Constructors, // Protected
Instance Properties, and // Events. The various functional categories
are as follows (in the order in which they appear in a type
synopsis):
- Constructors
-
Displays the constructors for the type. Public constructors and
protected constructors are displayed separately in subgroupings. If a
type defines no constructor at all, the C# compiler adds a default
no-argument constructor that is displayed here. If a type defines
only private constructors, it can't be instantiated,
so no constructor appears. Constructors are listed first because the
first thing you do with most types is instantiate them by calling a
constructor.
- Fields
-
Displays all fields defined by the type, including constants. Public
and protected fields are displayed in separate subgroups. Fields are
listed here, near the top of the synopsis, because constant values
are often used throughout the type as legal values for method
parameters and return values.
- Properties
-
Lists all the properties of the type, breaking them down into
subgroups for public and protected static properties and public and
protected instance properties. After the property name, its accessors
(get or set ) are shown.
- Static Methods
-
Lists the static methods (class methods) of the type, broken into
subgroups for public static methods and protected static methods.
- Public Instance Methods
-
Contains all public instance methods.
- Protected Instance Methods
-
Contains all protected instance methods.
32.2.4 Class Hierarchy
For any type that has a nontrivial inheritance hierarchy, the
synopsis is followed by a Hierarchy section. This section lists all
the supertypes of the type, as well as any interfaces implemented by
those supertypes. It also lists any interfaces implemented by an
interface. In the hierarchy listing, arrows indicate
supertype-to-subtype relationships, while the interfaces implemented
by a type follow the type name in parentheses. For example, the
following hierarchy indicates SomeClass implements
IDisposable and extends
MarshalByRefObject , which itself extends
Object :
System.ObjectSystem.MarshalByRefObjectSomeClass(System.IDisposable)
If a type has subtypes, the Hierarchy section is followed by a
Subtypes section that lists those subtypes. If an interface has
implementations, the Hierarchy section is followed by an
Implementations section that lists those implementations. While the
Hierarchy section shows ancestors of the type, the Subtypes or
Implementations section shows descendants.
32.2.5 Cross References
The Hierarchy section of a quick-reference entry is followed by a
number of optional cross-reference sections that indicate related
types and methods that may be of interest. These sections are the
following:
- Passed To
-
This section lists all the members (from other types) that are passed
an object of this type as an argument, including properties whose
values can be set to this type. This is useful when you have an
object of a given type and want to know where it can be used.
- Returned By
-
This section lists all the members that return an object of this
type, including properties whose values can take on this type. This
is useful when you want to work with an object of this type but
don't know how to obtain one.
- Valid On
-
For attributes, this lists the attribute targets the attribute can be
applied to.
- Associated Events
-
For delegates, lists the events it can handle.
32.2.6 A Note About Type Names
Throughout the quick reference, you'll notice that
types are sometimes referred to by type name alone and at other times
referred to by
type name and namespace. If namespaces
were always used, the type synopses would become long and hard to
read. On the other hand, if namespaces were never used, it would
sometimes be difficult to know what type was being referred to. The
rules for including or omitting the namespace name are complex. They
can be summarized approximately as follows, however:
If the type name alone is ambiguous, the namespace name is always
used.
If the type is part of the System namespace or is
a commonly used type such as
System.Collection.ICollection , the namespace is
omitted.
If the type being referred to is part of the current namespace (and
has a quick-reference entry in the current chapter), the namespace is
omitted. The namespace is also omitted if the type being referred to
is part of a namespace that contains the current namespace.
|