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Module std.traits
Templates which extract information about types and symbols at compile time.
Functions
Name | Description |
---|---|
lvalueOf()
|
Creates an lvalue or rvalue of type T for typeof(...) and
__traits(compiles, ...) purposes. No actual value is returned.
|
rvalueOf()
|
Creates an lvalue or rvalue of type T for typeof(...) and
_traits(compiles, ...) purposes. No actual value is returned.
|
select(a, b)
|
Select one of two functions to run via template parameter. |
Enums
Name | Description |
---|---|
FunctionAttribute
|
Returns the FunctionAttribute mask for function func .
|
ParameterStorageClass
|
Get tuple, one per function parameter, of the storage classes of the parameters. |
Variadic
|
Determines what kind of variadic parameters function has. |
Templates
Name | Description |
---|---|
SetFunctionAttributes
|
Constructs a new function or delegate type with the same basic signature as the given one, but different attributes (including linkage). |
Manifest constants
Name | Type | Description |
---|---|---|
allSameType
|
||
arity
|
Returns the number of arguments of function func .
arity is undefined for variadic functions.
|
|
extractParameterStorageClassFlags
|
Convert the result of __traits(getParameterStorageClasses)
to ParameterStorageClass enum s.
|
|
fullyQualifiedName
|
Get the fully qualified name of a type or a symbol. Can act as an intelligent type/symbol to string converter. | |
functionAttributes
|
Returns the FunctionAttribute mask for function func .
|
|
functionLinkage
|
Determine the linkage attribute of the function. | |
hasAliasing
|
Returns true if and only if T 's representation includes at
least one of the following:
|
|
hasElaborateAssign
|
True if S or any type directly embedded in the representation of S
defines an elaborate assignment. Elaborate assignments are introduced by
defining opAssign(typeof(this)) or opAssign(ref typeof(this))
for a struct or when there is a compiler-generated opAssign .
|
|
hasFunctionAttributes
|
Checks whether a function has the given attributes attached. | |
hasIndirections
|
Returns true if and only if T 's representation includes at
least one of the following:
|
|
hasMember
|
Yields true if and only if T is an aggregate that defines
a symbol called name .
|
|
hasNested
|
Determines whether T or any of its representation types
have a context pointer.
|
|
hasStaticMember
|
Whether the symbol represented by the string, member, exists and is a static member of T. | |
hasUDA
|
Determine if a symbol has a given user-defined attribute. | |
hasUnsharedAliasing
|
Returns true if and only if T 's representation includes at
least one of the following:
|
|
ifTestable
|
||
isAbstractClass
|
Detect whether T is an abstract class.
|
|
isAbstractFunction
|
Detect whether T is an abstract function.
|
|
isAggregateType
|
Detect whether type T is an aggregate type.
|
|
isArray
|
Detect whether type T is an array (static or dynamic; for associative
arrays see isAssociativeArray ).
|
|
isAssignable
|
Returns true iff a value of type Rhs can be assigned to a variable of
type Lhs .
|
|
isAssociativeArray
|
Detect whether T is an associative array type
|
|
isAutodecodableString
|
Detect whether type T is a string that will be autodecoded.
|
|
isBasicType
|
Detect whether T is a basic type (scalar type or void).
|
|
isBoolean
|
Detect whether T is a built-in boolean type.
|
|
isBuiltinType
|
Detect whether type T is a builtin type.
|
|
isCallable
|
Detect whether T is a callable object, which can be called with the
function call operator class="pln">LPAREN...class="pln">RPAREN .
|
|
isConvertibleToString
|
Warning: This trait will be deprecated as soon as it is no longer used in Phobos. For a function parameter to safely accept a type that implicitly converts to string as a string, the conversion needs to happen at the callsite; otherwise, the conversion is done inside the function, and in many cases, that means that local memory is sliced (e.g. if a static array is passed to the function, then it's copied, and the resulting dynamic array will be a slice of a local variable). So, if the resulting string escapes the function, the string refers to invalid memory, and accessing it would mean accessing invalid memory. As such, the only safe way for a function to accept types that implicitly convert to string is for the implicit conversion to be done at the callsite, and that can only occur if the parameter is explicitly typed as an array, whereas using isConvertibleToString in a template constraint would result in the conversion being done inside the function. As such, isConvertibleToString is inherently unsafe and is going to be deprecated. | |
isCopyable
|
Determines whether the type S can be copied.
If a type cannot be copied, then code such as MyStruct x; auto y = x; will fail to compile.
Copying for structs can be disabled by using @disable this(this) .
|
|
isCovariantWith
|
Determines whether the function type F is covariant with G , i.e.,
functions of the type F can override ones of the type G .
|
|
isDelegate
|
Detect whether symbol or type T is a delegate.
|
|
isDynamicArray
|
Detect whether type T is a dynamic array.
|
|
isEqualityComparable
|
Detects whether T is a comparable type. Basic types and structs and
classes that implement opCmp are ordering comparable.
|
|
isExpressions
|
Check whether the tuple T is an expression tuple. An expression tuple only contains expressions. | |
isFinal
|
Detect whether X is a final method or class.
|
|
isFinalClass
|
Detect whether T is a final class.
|
|
isFinalFunction
|
Detect whether T is a final function.
|
|
isFloatingPoint
|
Detect whether T is a built-in floating point type.
|
|
isFunction
|
Detect whether symbol or type X is a function. This is different that finding
if a symbol is callable or satisfying is(X == function) , it finds
specifically if the symbol represents a normal function declaration, i.e.
not a delegate or a function pointer.
|
|
isFunctionPointer
|
Detect whether symbol or type T is a function pointer.
|
|
isImplicitlyConvertible
|
Is From implicitly convertible to To ?
|
|
isInnerClass
|
Determines whether T is a class nested inside another class
and that T is the implicit reference to the outer class
(i.e. outer has not been used as a field or method name)
|
|
isInstanceOf
|
Returns true if T is an instance of the template S. | |
isIntegral
|
Detect whether T is a built-in integral type. Types bool ,
char , wchar , and dchar are not considered integral.
|
|
isIterable
|
Returns true if T can be iterated over using a foreach loop with
a single loop variable of automatically inferred type, regardless of how
the foreach loop is implemented. This includes ranges, structs/classes
that define opApply with a single loop variable, and builtin dynamic,
static and associative arrays.
|
|
isMutable
|
Returns true if T is not const or immutable. Note that isMutable is true for string, or immutable(char)[], because the 'head' is mutable. | |
isNarrowString
|
Detect whether type T is a narrow string.
|
|
isNested
|
Determines whether T has its own context pointer.
T must be either class , struct , or union .
|
|
isNestedFunction
|
Determines if f is a function that requires a context pointer.
|
|
isNumeric
|
Detect whether T is a built-in numeric type (integral or floating
point).
|
|
isOrderingComparable
|
Detects whether T is a comparable type. Basic types and structs and
classes that implement opCmp are ordering comparable.
|
|
isPointer
|
Detect whether type T is a pointer.
|
|
isSafe
|
true if func is @safe or @trusted .
|
|
isScalarType
|
Detect whether T is a scalar type (a built-in numeric, character or
boolean type).
|
|
isSigned
|
Detect whether T is a built-in signed numeric type.
|
|
isSIMDVector
|
Detect whether type T is a SIMD vector type.
|
|
isSomeChar
|
Detect whether T is one of the built-in character types.
|
|
isSomeFunction
|
Detect whether symbol or type T is a function, a function pointer or a delegate.
|
|
isSomeString
|
Detect whether T is one of the built-in string types.
|
|
isStaticArray
|
Detect whether type T is a static array.
|
|
isType
|
Detect whether X is a type. Analogous to is(X) . This is useful when used
in conjunction with other templates, e.g. allSatisfy!(isType, X) .
|
|
isTypeTuple
|
Check whether the tuple T is a type tuple.
A type tuple only contains types.
|
|
isUnsafe
|
true if func is @system .
|
|
isUnsigned
|
Detect whether T is a built-in unsigned numeric type.
|
|
mangledName
|
Returns the mangled name of symbol or type sth .
|
|
moduleName
|
Get the module name (including package) for the given symbol. | |
mostNegative
|
Returns the most negative value of the numeric type T. | |
packageName
|
Get the full package name for the given symbol. | |
variadicFunctionStyle
|
Determines what kind of variadic parameters function has. |
Aliases
Name | Type | Description |
---|---|---|
BaseClassesTuple
|
AliasSeq!()
|
Get a AliasSeq of all base classes of this class, in decreasing order. Interfaces are not included. BaseClassesTuple!Object yields the empty type tuple. |
BaseTypeTuple
|
P
|
Get a AliasSeq of the base class and base interfaces of this class or interface. BaseTypeTuple!Object returns the empty type tuple. |
CentTypeList
|
AliasSeq!(cent,ucent)
|
|
classInstanceAlignment
|
maxAlignment!(void*,typeof(T.tupleof))
|
Returns class instance alignment. |
CommonType
|
void
|
Get the type that all types can be implicitly converted to. Useful e.g. in figuring out an array type from a bunch of initializing values. Returns void if passed an empty list, or if the types have no common type. |
ConstOf
|
const(T)
|
|
CopyConstness
|
Unshared!(CopyTypeQualifiers!(FromType,ToType))
|
Returns the type of Target with the "constness" of Source . A type's constness
refers to whether it is const , immutable , or inout . If source has no constness, the
returned type will be the same as Target .
|
CopyTypeQualifiers
|
ModifyTypePreservingTQ!(T,FromType)
|
Copies type qualifiers from FromType to ToType .
|
EnumMembers
|
EnumSpecificMembers!(__traits(allMembers,E))
|
Retrieves the members of an enumerated type enum E .
|
FieldNameTuple
|
staticMap!(NameOf,T.tupleof[0..__dollar-isNested!T])
|
Get as an expression tuple the names of the fields of a struct, class, or
union. This consists of the fields that take up memory space, excluding the
hidden fields like the virtual function table pointer or a context pointer
for nested types.
Inherited fields (for classes) are not included.
If T isn't a struct, class, or union, an
expression tuple with an empty string is returned.
|
Fields
|
typeof(T
|
Get as a tuple the types of the fields of a struct, class, or union.
This consists of the fields that take up memory space,
excluding the hidden fields like the virtual function
table pointer or a context pointer for nested types.
If T isn't a struct, class, or union returns a tuple
with one element T .
|
FieldTypeTuple
|
|
Alternate name for Fields , kept for legacy compatibility.
|
ForeachType
|
ReturnType!(typeof((inoutintx=0){foreach(elem;T.init){returnelem;}assert(0);}))
|
Returns the inferred type of the loop variable when a variable of type T
is iterated over using a foreach loop with a single loop variable and
automatically inferred return type. Note that this may not be the same as
std in the case of narrow strings, or if T
has both opApply and a range interface.
|
FunctionTypeOf
|
Fsym
|
Get the function type from a callable object func .
|
getSymbolsByUDA
|
AliasSeq!(symbol,membersWithUDA)
|
|
getUDAs
|
Filter!(isDesiredUDA!attribute,__traits(getAttributes,symbol))
|
Gets the matching user-defined attributes from the given symbol. |
hasElaborateCopyConstructor
|
hasElabCCtor!S
|
True if S or any type embedded directly in the representation of S
defines an elaborate copy constructor. Elaborate copy constructors are
introduced by defining this(this) for a struct .
|
hasElaborateDestructor
|
hasElabDest!S
|
True if S or any type directly embedded in the representation
of S defines an elaborate destructor. Elaborate destructors
are introduced by defining ~this() for a struct .
|
hasElaborateMove
|
hasElabMove!S
|
True if S or any type embedded directly in the representation of S
defines elaborate move semantics. Elaborate move semantics are
introduced by defining opPostMove(ref typeof(this)) for a struct .
|
ImmutableOf
|
immutable(T)
|
|
ImplicitConversionTargets
|
AliasSeq!(byte,ubyte,short,ushort,int,uint,long,ulong,CentTypeList,float,double,real,char,wchar,dchar)
|
|
InoutOf
|
inout(T)
|
|
InterfacesTuple
|
NoDuplicates!(Flatten!S)
|
|
isExpressionTuple
|
|
Alternate name for isExpressions , kept for legacy compatibility.
|
KeyType
|
K
|
Get the Key type of an Associative Array. |
Largest
|
T[0]
|
Returns the largest type, i.e. T such that T.sizeof is the largest. If more than one type is of the same size, the leftmost argument of these in will be returned. |
MemberFunctionsTuple
|
shrink!overloads
|
Returns a tuple of non-static functions with the name name declared in the
class or interface C . Covariant duplicates are shrunk into the most
derived one.
|
OriginalType
|
ModifyTypePreservingTQ!(Impl,T)
|
Strips off all enum s from type T .
|
ParameterDefaults
|
Impl!()
|
Get, as a tuple, the default value of the parameters to a function symbol.
If a parameter doesn't have the default value, void is returned instead.
|
ParameterDefaultValueTuple
|
|
Alternate name for ParameterDefaults , kept for legacy compatibility.
|
ParameterIdentifierTuple
|
Impl!()
|
Get, as a tuple, the identifiers of the parameters to a function symbol. |
Parameters
|
P
|
Get, as a tuple, the types of the parameters to a function, a pointer
to function, a delegate, a struct with an opCall , a pointer to a
struct with an opCall , or a class with an opCall .
|
ParameterStorageClassTuple
|
StorageClass!0
|
Get tuple, one per function parameter, of the storage classes of the parameters. |
ParameterTypeTuple
|
|
Alternate name for Parameters , kept for legacy compatibility.
|
PointerTarget
|
T
|
Returns the target type of a pointer. |
Promoted
|
CopyTypeQualifiers!(T,typeof(T.init+T.init))
|
Get the type that a scalar type T will promote
to in multi-term arithmetic expressions.
|
QualifierOf
|
SharedConstOf
|
Gives a template that can be used to apply the same
attributes that are on the given type T . E.g. passing
inout shared int will return SharedInoutOf .
|
RepresentationTypeTuple
|
staticMapMeta!(RepresentationTypeTupleImpl,FieldTypeTuple!T)
|
Get the primitive types of the fields of a struct or class, in topological order. |
ReturnType
|
CRC
|
Get the type of the return value from a function,
a pointer to function, a delegate, a struct
with an opCall, a pointer to a struct with an opCall,
or a class with an opCall . Please note that ref
is not part of a type, but the attribute of the function
(see template functionAttributes ).
|
Select
|
Alias!(T[!condition])
|
Aliases itself to T[0] if the boolean condition is true
and to T[1] otherwise.
|
SetFunctionAttributes
|
FunctionTypeOf!(SetFunctionAttributes!(T*,linkage,attrs))
|
Constructs a new function or delegate type with the same basic signature as the given one, but different attributes (including linkage). |
SharedConstOf
|
const(shared(T))
|
|
SharedInoutOf
|
inout(shared(T))
|
|
SharedOf
|
shared(T)
|
|
Signed
|
ModifyTypePreservingTQ!(Impl,OriginalType!T)
|
Returns the corresponding signed type for T. T must be a numeric integral type, otherwise a compile-time error occurs. |
SignedCentTypeList
|
AliasSeq!cent
|
|
TemplateArgsOf
|
Args
|
Returns a AliasSeq of the template arguments used to instantiate T .
|
TemplateOf
|
Base
|
Returns an alias to the template that T is an instance of.
It will return void if a symbol without a template is given.
|
TransitiveBaseTypeTuple
|
AliasSeq!()
|
Get a AliasSeq of all base classes of T, in decreasing order, followed by T's interfaces. TransitiveBaseTypeTuple!Object yields the empty type tuple. |
Unqual
|
CoreUnqual!T
|
Removes all qualifiers, if any, from type T .
|
Unsigned
|
ModifyTypePreservingTQ!(Impl,OriginalType!T)
|
|
UnsignedCentTypeList
|
AliasSeq!ucent
|
|
ValueType
|
V
|
Get the Value type of an Associative Array. |
Authors
Walter Bright,
Tomasz Stachowiak (isExpressions
),
Andrei Alexandrescu,
Shin Fujishiro,
Robert Clipsham,
David Nadlinger,
Kenji Hara,
Shoichi Kato
License
Copyright © 1999-2022 by the D Language Foundation | Page generated by ddox.