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Sure, use decltype: auto var_a = bar(t); decltype(var_a) b; You can add cv-qualifiers and references to decltype specifiers as if it were any other type: const decltype(var_a)* b;


decltype(var_a) var_b; And a Lorem Ipsum to reach the required minimum of 30 characters per answer.


Despite the nice answer of @TartanLlama, this is another way one can use decltype to name actually the given type: int f() { return 42; } void g() { // Give the type a name... using my_type = decltype(f()); // ... then use it as already showed up my_type var_a = f(); my_type var_b = var_a; const my_type &var_c = var_b; } int ...


Sure, you can do it with a definition: template<> void Test<long, double>::f(){std::cout<<"f() specialized long, double"<<std::endl;}


In ancient times before c++11 arrived people dealt with it using pure templates. template <class Bar> void foo_impl(Bar var_a) { Bar var_b; //var_b is of the same type as var_a } template <class T> void foo(T t) { foo_impl(bar(t)); } F_1 bar(T_1 t) { } F_2 bar(T_2 t) { }


I know, you said you wanted something more elegant and without enums, but I think the enum-solution is fairly elegant. So here is one attempt: use std::fs; use std::io::{self, Read, Seek, SeekFrom}; enum Input { File(fs::File), Stdin(io::Stdin), } impl Read for Input { fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> { ...


The two iterators don't produce the same values: impl<B: BufRead> Iterator for io::Lines<B> { type Item = Result<String>; } impl<'a> Iterator for str::Lines<'a> { type Item = &'a str; } You have to handle that difference somehow. The most important difference is that io::Lines can fail. Your program has to ...


There's a way to solve this by changing the type of the builder as it evolves. Since Struct::func takes ownership of the builder and returns a new builder, we are free to change the result type. First, we need to specify an initial type for F. We could just choose any existing implementation for Fn(T), but we can do better. I propose that we use an ...


The intent here is to use associated types to make the FooStore trait not require the awkward and problematic syntax of impl<F:Fooer, T: FooStore<F>> FooStore<F> for DB because that often complains about F not being used. Your struct DB needs to assign a concrete type that implements Fooer to FooStore::T. Fooer is a trait, but can also ...


Following Francis Gagné's clever solution, here's a similar idea that can work on stable Rust: struct Struct<T, F: Fn(T)> { func: Option<F>, value: T, } enum Structs<T, F: Fn(T)> { Struct1(T), Struct2(T, F), } impl<T> Struct<T, fn(T)> { fn new(value: T) -> Struct<T, fn(T)> { Struct { ...


Using the Borrow bound in the parse function will allow you to borrow &str, but if you need String values, a better approach is to use Cow. Using line.borrow().to_string() to obtain a String value will always allocate, even when parse is called with lines from file (in this case, produces String). Using line.into_owned() will allocate when ...


Is it possible to wrap stdin or a file in the same sort of buffer so I could just use that type and not worry about the type of io? That's exactly what the trait Read does. It seems that what you want is an abstraction (trait) for Stdin and File that has optional support for seek and allows to query about this support. In the following code, ...


You can't put an unsized variable (a trait) directly in a Result. Perhaps you mean this? fn dowload_body<F, W: Write>(write_supplier: F) -> Result<()> // ^ where F: Fn() -> Result<W> // ^ create a template for the trait. {


Short answer - there's no PHP function, but you can do it using ReflectionClass: $reflection = new ReflectionClass('App\YourTrait'); $traitMethods = $reflection->getMethods(); PHP Documentation about this: Hope it saves someone time. I sure wasted too much on finding this out.


From the Groovy documentation on Traits, specifically on public fields (as Burt noted below, this also applies to properties): …in order to avoid the diamond problem, field names are remapped in the implementing class… It goes on: The name of the field depends on the fully qualified name of the trait. All dots (.) in package are replaced with an ...

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