AspectJ Quick Reference

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Methods and Constructors

Methods and Constructors
`call(Signature)`	every call to any method or constructor matching `Signature` at the call site
`execution(Signature)`	every execution of any method or constructor matching `Signature`
Fields
`get(Signature)`	every reference to any field matching `Signature`
`set(Signature)`	every assignment to any field matching `Signature`. The assigned value can be exposed with an `args` pointcut
Exception Handlers
`handler(TypePattern)`	every exception handler for any `Throwable` type in `TypePattern`. The exception value can be exposed with an `args` pointcut
Advice
`adviceexecution()`	every execution of any piece of advice
Initialization
`staticinitialization(TypePattern)`	every execution of a static initializer for any type in `TypePattern`
`initialization(Signature)`	every initialization of an object when the first constructor called in the type matches `Signature`, encompassing the return from the super constructor call to the return of the first-called constructor
`preinitialization(Signature)`	every pre-initialization of an object when the first constructor called in the type matches `Signature`, encompassing the entry of the first-called constructor to the call to the super constructor
Lexical
`within(TypePattern)`	every join point from code defined in a type in `TypePattern`
`withincode(Signature)`	every join point from code defined in a method or constructor matching `Signature`

call(Signature)

every call to any method or constructor matching Signature at the call site

execution(Signature)

every execution of any method or constructor matching Signature

Fields

get(Signature)

every reference to any field matching Signature

set(Signature)

every assignment to any field matching Signature. The assigned value can be exposed with an args pointcut

Exception Handlers

handler(TypePattern)

every exception handler for any Throwable type in TypePattern. The exception value can be exposed with an args pointcut

Advice

adviceexecution()

every execution of any piece of advice

Initialization

staticinitialization(TypePattern)

every execution of a static initializer for any type in TypePattern

initialization(Signature)

every initialization of an object when the first constructor called in the type matches Signature, encompassing the return from the super constructor call to the return of the first-called constructor

preinitialization(Signature)

every pre-initialization of an object when the first constructor called in the type matches Signature, encompassing the entry of the first-called constructor to the call to the super constructor

Lexical

within(TypePattern)

every join point from code defined in a type in TypePattern

withincode(Signature)

every join point from code defined in a method or constructor matching Signature

Type Patterns

A type pattern is one of

Type pattern

Type pattern
`TypeNamePattern`	all types in `TypeNamePattern`
`SubtypePattern`	all types in `SubtypePattern`, a pattern with a `+`
`ArrayTypePattern`	all types in `ArrayTypePattern`, a pattern with one or more `[]`s.
`!TypePattern`	all types not in `TypePattern`
`TypePattern0 && TypePattern1`	all types in both `TypePattern0` and `TypePattern1`
`TypePattern0 \|\| TypePattern1`	all types in either `TypePattern0` or `TypePattern1`
`( TypePattern )`	all types in `TypePattern`

TypeNamePattern

all types in TypeNamePattern

SubtypePattern

all types in SubtypePattern, a pattern with a +

ArrayTypePattern

all types in ArrayTypePattern, a pattern with one or more []s.

!TypePattern

all types not in TypePattern

TypePattern0 && TypePattern1

all types in both TypePattern0 and TypePattern1

TypePattern0 || TypePattern1

all types in either TypePattern0 or TypePattern1

( TypePattern )

all types in TypePattern

where TypeNamePattern can either be a plain type name, the wildcard * (indicating all types), or an identifier with embedded * and .. wildcards.

An embedded * in an identifier matches any sequence of characters, but does not match the package (or inner-type) separator ..

An embedded .. in an identifier matches any sequence of characters that starts and ends with the package (or inner-type) separator ..

Advice

Each piece of advice is of the form

[ strictfp ] AdviceSpec [ throws TypeList ] : Pointcut { Body }

where AdviceSpec is one of

before( Formals ): runs before each join point
after( Formals ) returning [ ( Formal ) ]: runs after each join point that returns normally. The optional formal gives access to the returned value
after( Formals ) throwing [ ( Formal ) ]: runs after each join point that throws a Throwable. If the optional formal is present, runs only after each join point that throws a Throwable of the type of Formal, and Formal gives access to the Throwable exception value
after( Formals ): runs after each join point regardless of whether it returns normally or throws a Throwable
Type around( Formals ): runs in place of each join point. The join point can be executed by calling proceed, which takes the same number and types of arguments as the around advice.

Three special variables are available inside of advice bodies:

thisJoinPoint: an object of type org.aspectj.lang.JoinPoint representing the join point at which the advice is executing
thisJoinPointStaticPart: equivalent to thisJoinPoint.getStaticPart(), but may use fewer runtime resources
thisEnclosingJoinPointStaticPart: the static part of the dynamically enclosing join point

Inter-type member declarations

Each inter-type member is one of

Modifiers ReturnType OnType . Id ( Formals ) [ throws TypeList ] { Body }: a method on OnType
abstract Modifiers ReturnType OnType . Id ( Formals ) [ throws TypeList ] ;: an abstract method on OnType
Modifiers OnType . new ( Formals ) [ throws TypeList ] { Body }: a constructor on OnType
Modifiers Type OnType . Id [ = Expression ] ;: a field on OnType

Other declarations

declare parents : TypePattern extends Type ;: the types in TypePattern extend Type
declare parents : TypePattern implements TypeList ;: the types in TypePattern implement the types in TypeList
declare warning : Pointcut : String ;: if any of the join points in Pointcut possibly exist in the program, the compiler emits the warning String
declare error : Pointcut : String ;: if any of the join points in Pointcut could possibly exist in the program, the compiler emits the error String
declare soft : Type : Pointcut ;: any Type exception that gets thrown at any join point picked out by Pointcut is wrapped in org.aspectj.lang.SoftException
declare precedence : TypePatternList ;: at any join point where multiple pieces of advice apply, the advice precedence at that join point is in TypePatternList order

Aspects

Each aspect is of the form

[ privileged ] Modifiers aspect Id [ extends Type ] [ implements TypeList ] [ PerClause ] { Body }

where PerClause defines how the aspect is instantiated and associated (issingleton() by default):

PerClause Description Accessor

PerClause	Description	Accessor
[ `issingleton()` ]	One instance of the aspect is made. This is the default.	`aspectOf()` at all join points
`perthis(Pointcut)`	An instance is associated with each object that is the currently executing object at any join point in `Pointcut`.	`aspectOf(Object)` at all join points
`pertarget(Pointcut)`	An instance is associated with each object that is the target object at any join point in `Pointcut`.	`aspectOf(Object)` at all join points
`percflow(Pointcut)`	The aspect is defined for each entrance to the control flow of the join points defined by `Pointcut`.	`aspectOf()` at join points in `cflow(Pointcut)`
`percflowbelow(Pointcut)`	The aspect is defined for each entrance to the control flow below the join points defined by `Pointcut`.	`aspectOf()` at join points in `cflowbelow(Pointcut)`

[ issingleton() ]

One instance of the aspect is made. This is the default.

aspectOf() at all join points

perthis(Pointcut)

An instance is associated with each object that is the currently executing object at any join point in Pointcut.

aspectOf(Object) at all join points

pertarget(Pointcut)

An instance is associated with each object that is the target object at any join point in Pointcut.

aspectOf(Object) at all join points

percflow(Pointcut)

The aspect is defined for each entrance to the control flow of the join points defined by Pointcut.

aspectOf() at join points in cflow(Pointcut)

percflowbelow(Pointcut)

The aspect is defined for each entrance to the control flow below the join points defined by Pointcut.

aspectOf() at join points in cflowbelow(Pointcut)