| [section:transform transform] |
| |
| [heading Prototype] |
| |
| `` |
| template< |
| class SinglePassRange1, |
| class OutputIterator, |
| class UnaryOperation |
| > |
| OutputIterator transform(const SinglePassRange1& rng, |
| OutputIterator out, |
| UnaryOperation fun); |
| |
| template< |
| class SinglePassRange1, |
| class SinglePassRange2, |
| class OutputIterator, |
| class BinaryOperation |
| > |
| OutputIterator transform(const SinglePassRange1& rng1, |
| const SinglePassRange2& rng2, |
| OutputIterator out, |
| BinaryOperation fun); |
| `` |
| |
| [heading Description] |
| |
| [*UnaryOperation version:] |
| |
| `transform` assigns the value `y` to each element `[out, out + distance(rng)), y = fun(x)` where `x` is the corresponding value to `y` in `rng1`. The return value is `out + distance(rng)`. |
| |
| [*BinaryOperation version:] |
| |
| `transform` assigns the value `z` to each element `[out, out + min(distance(rng1), distance(rng2))), z = fun(x,y)` where `x` is the corresponding value in `rng1` and `y` is the corresponding value in `rng2`. This version of `transform` stops upon reaching either the end of `rng1`, or the end of `rng2`. Hence there isn't a requirement for `distance(rng1) == distance(rng2)` since there is a safe guaranteed behaviour, unlike with the iterator counterpart in the standard library. |
| |
| The return value is `out + min(distance(rng1), distance(rng2))`. |
| |
| [heading Definition] |
| |
| Defined in the header file `boost/range/algorithm/transform.hpp` |
| |
| [heading Requirements] |
| |
| [*For the unary versions of transform:] |
| |
| * `SinglePassRange1` is a model of the __single_pass_range__ Concept. |
| * `OutputIterator` is a model of the `OutputIteratorConcept`. |
| * `UnaryOperation` is a model of the `UnaryFunctionConcept`. |
| * `SinglePassRange1`'s value type must be convertible to `UnaryFunction`'s argument type. |
| * `UnaryFunction`'s result type must be convertible to a type in `OutputIterator`'s set of value types. |
| |
| [*For the binary versions of transform:] |
| |
| * `SinglePassRange1` is a model of the __single_pass_range__ Concept. |
| * `SinglePassRange2` is a model of the __single_pass_range__ Concept. |
| * `OutputIterator` is a model of the `OutputIteratorConcept`. |
| * `BinaryOperation` is a model of the `BinaryFunctionConcept`. |
| * `SinglePassRange1`'s value type must be convertible to `BinaryFunction`'s first argument type. |
| * `SinglePassRange2`'s value type must be convertible to `BinaryFunction`'s second argument type. |
| * `BinaryOperation`'s result type must be convertible to a type in `OutputIterator`'s set of value types. |
| |
| [heading Precondition:] |
| |
| [*For the unary version of transform:] |
| |
| * `out` is not an iterator within the range `[begin(rng1) + 1, end(rng1))`. |
| * `[out, out + distance(rng1))` is a valid range. |
| |
| [*For the binary version of transform:] |
| |
| * `out` is not an iterator within the range `[begin(rng1) + 1, end(rng1))`. |
| * `out` is not an iterator within the range `[begin(rng2) + 1, end(rng2))`. |
| * `[out, out + min(distance(rng1), distance(rng2)))` is a valid range. |
| |
| |
| [heading Complexity] |
| |
| Linear. The operation is applied exactly `distance(rng1)` for the unary version and `min(distance(rng1), distance(rng2))` for the binary version. |
| |
| [endsect] |
| |
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