View source code
Display the source code in std/range/interfaces.d from which this
page was generated on github.
Report a bug
If you spot a problem with this page, click here to create a
Bugzilla issue.
Improve this page
Quickly fork, edit online, and submit a pull request for this page.
Requires a signed-in GitHub account. This works well for small changes.
If you'd like to make larger changes you may want to consider using
local clone.
Module std.range.interfaces
This module is a submodule of std
.
The main std
module provides template-based tools for working with
ranges, but sometimes an object-based interface for ranges is needed, such as
when runtime polymorphism is required. For this purpose, this submodule
provides a number of object and interface
definitions that can be used to
wrap around range objects created by the std
templates.
InputRange |
Wrapper for input ranges. |
InputAssignable |
Wrapper for input ranges with assignable elements. |
ForwardRange |
Wrapper for forward ranges. |
ForwardAssignable |
Wrapper for forward ranges with assignable elements. |
BidirectionalRange |
Wrapper for bidirectional ranges. |
BidirectionalAssignable |
Wrapper for bidirectional ranges with assignable elements. |
RandomAccessFinite |
Wrapper for finite random-access ranges. |
RandomAccessAssignable |
Wrapper for finite random-access ranges with assignable elements. |
RandomAccessInfinite |
Wrapper for infinite random-access ranges. |
OutputRange |
Wrapper for output ranges. |
OutputRangeObject |
Class that implements the OutputRange interface and wraps the
put methods in virtual functions.
|
outputRangeObject |
Convenience function for creating an OutputRangeObject with a base
range of type R that accepts types E.
|
InputRangeObject |
Class that implements the InputRange interface and wraps the
input range methods in virtual functions.
|
inputRangeObject |
Convenience function for creating an InputRangeObject
of the proper type.
|
MostDerivedInputRange |
Returns the interface type that best matches the range. |
Functions
Name | Description |
---|---|
inputRangeObject(range)
|
Convenience function for creating an InputRangeObject of the proper type.
See InputRange for an example.
|
Interfaces
Name | Description |
---|---|
BidirectionalAssignable
|
Adds assignable elements to BidirectionalRange. |
BidirectionalRange
|
Interface for a bidirectional range of type E .
|
ForwardAssignable
|
Adds assignable elements to ForwardRange. |
ForwardRange
|
Interface for a forward range of type E .
|
InputAssignable
|
Adds assignable elements to InputRange. |
InputRange
|
These interfaces are intended to provide virtual function-based wrappers
around input ranges with element type E. This is useful where a well-defined
binary interface is required, such as when a DLL function or virtual function
needs to accept a generic range as a parameter. Note that
isInputRange
and friends check for conformance to structural interfaces
not for implementation of these interface types.
|
OutputRange
|
Interface for an output range of type E . Usage is similar to the
InputRange interface and descendants.
|
RandomAccessFinite
|
Interface for a finite random access range of type E .
|
RandomAccessInfinite
|
Interface for an infinite random access range of type E .
|
RandomFiniteAssignable
|
Adds assignable elements to RandomAccessFinite. |
Classes
Name | Description |
---|---|
OutputRangeObject
|
Implements the OutputRange interface for all types E and wraps the
put method for each type E in a virtual function.
|
Templates
Name | Description |
---|---|
outputRangeObject
|
Convenience function for creating an OutputRangeObject with a base range
of type R that accepts types E .
|
Aliases
Name | Type | Description |
---|---|---|
InputRangeObject
|
R
|
Implements the most derived interface that R works with and wraps
all relevant range primitives in virtual functions. If R is already
derived from the InputRange interface, aliases itself away.
|
MostDerivedInputRange
|
RandomAccessInfinite!E
|
Returns the interface type that best matches R .
|
Authors
Andrei Alexandrescu, David Simcha, and Jonathan M Davis. Credit for some of the ideas in building this module goes to Leonardo Maffi.
License
Copyright © 1999-2018 by the D Language Foundation | Page generated by ddox.