std.variant
This module implements a discriminated union type (a.k.a. tagged union, algebraic type). Such types are useful for type-uniform binary interfaces, interfacing with scripting languages, and comfortable exploratory programming. Synopsis:Variant a; // Must assign before use, otherwise exception ensues // Initialize with an integer; make the type int Variant b = 42; assert(b.type == typeid(int)); // Peek at the value assert(b.peek!(int) !is null && *b.peek!(int) == 42); // Automatically convert per language rules auto x = b.get!(real); // Assign any other type, including other variants a = b; a = 3.14; assert(a.type == typeid(double)); // Implicit conversions work just as with built-in types assert(a > b); // Check for convertibility assert(!a.convertsTo!(int)); // double not convertible to int // Strings and all other arrays are supported a = "now I'm a string"; assert(a == "now I'm a string"); a = new int[42]; // can also assign arrays assert(a.length == 42); a[5] = 7; assert(a[5] == 7); // Can also assign class values class Foo {} auto foo = new Foo; a = foo; assert(*a.peek!(Foo) == foo); // and full type information is preservedCredits:
Reviewed by Brad Roberts. Daniel Keep provided a detailed code review prompting the following improvements: (1) better support for arrays; (2) support for associative arrays; (3) friendlier behavior towards the garbage collector. License:
Boost License 1.0. Authors:
Andrei Alexandrescu Source:
std/variant.d
- VariantN is a back-end type seldom used directly by user
code. Two commonly-used types using VariantN as
back-end are:
- Algebraic: A closed discriminated union with a limited type universe (e.g., Algebraic!(int, double, string) only accepts these three types and rejects anything else).
- Variant: An open discriminated union allowing an unbounded set of types. The restriction is that the size of the stored type cannot be larger than the largest built-in type. This means that Variant can accommodate all primitive types and all user-defined types except for large structs.
- Tells whether a type T is statically allowed for storage inside a VariantN object by looking T up in AllowedTypes. If AllowedTypes is empty, all types of size up to maxSize are allowed.
- this(T)(T value);
- Constructs a VariantN value given an argument of a generic type. Statically rejects disallowed types.
- Assigns a VariantN from a generic argument. Statically rejects disallowed types.
- Returns true if and only if the VariantN object
holds a valid value (has been initialized with, or assigned
from, a valid value).
Example:
Variant a; assert(!a.hasValue); Variant b; a = b; assert(!a.hasValue); // still no value a = 5; assert(a.hasValue);
- If the VariantN object holds a value of the
exact type T, returns a pointer to that
value. Otherwise, returns null. In cases
where T is statically disallowed, peek will not compile.
Example:
Variant a = 5; auto b = a.peek!(int); assert(b !is null); *b = 6; assert(a == 6);
- Returns the typeid of the currently held value.
- Returns true if and only if the VariantN object holds an object implicitly convertible to type U. Implicit convertibility is defined as per ImplicitConversionTargets.
- Returns the value stored in the VariantN object, implicitly converted to the requested type T, in fact DecayStaticToDynamicArray!(T). If an implicit conversion is not possible, throws a VariantException.
- Returns the value stored in the VariantN object, explicitly converted (coerced) to the requested type T. If T is a string type, the value is formatted as a string. If the VariantN object is a string, a parse of the string to type T is attempted. If a conversion is not possible, throws a VariantException.
- Formats the stored value as a string.
- Comparison for equality used by the "==" and "!=" operators.
- Ordering comparison used by the "<", "<=", ">", and ">=" operators. In case comparison is not sensible between the held value and rhs, an exception is thrown.
- Computes the hash of the held value.
- Arithmetic between VariantN objects and numeric values. All arithmetic operations return a VariantN object typed depending on the types of both values involved. The conversion rules mimic D's built-in rules for arithmetic conversions.
- VariantN opMul(T)(T rhs);
VariantN opDiv(T)(T rhs);
VariantN opMod(T)(T rhs);
VariantN opAnd(T)(T rhs);
VariantN opOr(T)(T rhs);
VariantN opXor(T)(T rhs);
VariantN opShl(T)(T rhs);
VariantN opShr(T)(T rhs);
VariantN opUShr(T)(T rhs);
VariantN opCat(T)(T rhs);
VariantN opAddAssign(T)(T rhs);
VariantN opSubAssign(T)(T rhs);
VariantN opMulAssign(T)(T rhs);
VariantN opDivAssign(T)(T rhs);
VariantN opModAssign(T)(T rhs);
VariantN opAndAssign(T)(T rhs);
VariantN opOrAssign(T)(T rhs);
VariantN opXorAssign(T)(T rhs);
VariantN opShlAssign(T)(T rhs);
VariantN opShrAssign(T)(T rhs);
VariantN opUShrAssign(T)(T rhs);
VariantN opCatAssign(T)(T rhs); - ditto ditto
- Array and associative array operations. If a VariantN contains an (associative) array, it can be indexed
into. Otherwise, an exception is thrown.
Example:
auto a = Variant(new int[10]); a[5] = 42; assert(a[5] == 42); int[int] hash = [ 42:24 ]; a = hash; assert(a[42] == 24);
Caveat:
Due to limitations in current language, read-modify-write operations op= will not work properly:Variant a = new int[10]; a[5] = 42; a[5] += 8; assert(a[5] == 50); // fails, a[5] is still 42
- If the VariantN contains an (associative) array, returns the length of that array. Otherwise, throws an exception.
- If the VariantN contains an array, applies dg to each element of the array in turn. Otherwise, throws an exception.
- Algebraic data type restricted to a closed set of possible
types. It's an alias for a VariantN with an
appropriately-constructed maximum size. Algebraic is
useful when it is desirable to restrict what a discriminated type
could hold to the end of defining simpler and more efficient
manipulation.
Future additions to Algebraic will allow compile-time
checking that all possible types are handled by user code,
eliminating a large class of errors.
BUGS:
Currently, Algebraic does not allow recursive data types. They will be allowed in a future iteration of the implementation. Example:
auto v = Algebraic!(int, double, string)(5); assert(v.peek!(int)); v = 3.14; assert(v.peek!(double)); // auto x = v.peek!(long); // won't compile, type long not allowed // v = '1'; // won't compile, type char not allowed
- Variant is an alias for VariantN instantiated with the largest of creal, char[], and void delegate(). This ensures that Variant is large enough to hold all of D's predefined types, including all numeric types, pointers, delegates, and class references. You may want to use VariantN directly with a different maximum size either for storing larger types, or for saving memory.
- Returns an array of variants constructed from args.
Example:
auto a = variantArray(1, 3.14, "Hi!"); assert(a[1] == 3.14); auto b = Variant(a); // variant array as variant assert(b[1] == 3.14);
Code that needs functionality similar to the boxArray function in the std.boxer module can achieve it like this:// old Box[] fun(...) { ... return boxArray(_arguments, _argptr); } // new Variant[] fun(T...)(T args) { ... return variantArray(args); }
This is by design. During construction the Variant needs static type information about the type being held, so as to store a pointer to function for fast retrieval. - Thrown in three cases:
- An uninitialized Variant is used in any way except assignment and hasValue;
- A get or coerce is attempted with an incompatible target type;
- A comparison between Variant objects of incompatible types is attempted.