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260 lines
8.2 KiB
C++
260 lines
8.2 KiB
C++
/* Copyright (C) 2017-2021 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#ifndef COMMON_ARRAY_VIEW_H
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#define COMMON_ARRAY_VIEW_H
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#include "traits.h"
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#include <type_traits>
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/* An array_view is an abstraction that provides a non-owning view
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over a sequence of contiguous objects.
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A way to put it is that array_view is to std::vector (and
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std::array and built-in arrays with rank==1) like std::string_view
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is to std::string.
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The main intent of array_view is to use it as function input
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parameter type, making it possible to pass in any sequence of
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contiguous objects, irrespective of whether the objects live on the
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stack or heap and what actual container owns them. Implicit
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construction from the element type is supported too, making it easy
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to call functions that expect an array of elements when you only
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have one element (usually on the stack). For example:
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struct A { .... };
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void function (gdb::array_view<A> as);
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std::vector<A> std_vec = ...;
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std::array<A, N> std_array = ...;
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A array[] = {...};
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A elem;
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function (std_vec);
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function (std_array);
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function (array);
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function (elem);
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Views can be either mutable or const. A const view is simply
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created by specifying a const T as array_view template parameter,
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in which case operator[] of non-const array_view objects ends up
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returning const references. Making the array_view itself const is
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analogous to making a pointer itself be const. I.e., disables
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re-seating the view/pointer.
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Since array_view objects are small (pointer plus size), and
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designed to be trivially copyable, they should generally be passed
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around by value.
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You can find unit tests covering the whole API in
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unittests/array-view-selftests.c. */
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namespace gdb {
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template <typename T>
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class array_view
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{
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/* True iff decayed T is the same as decayed U. E.g., we want to
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say that 'T&' is the same as 'const T'. */
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template <typename U>
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using IsDecayedT = typename std::is_same<typename std::decay<T>::type,
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typename std::decay<U>::type>;
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/* True iff decayed T is the same as decayed U, and 'U *' is
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implicitly convertible to 'T *'. This is a requirement for
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several methods. */
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template <typename U>
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using DecayedConvertible = gdb::And<IsDecayedT<U>,
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std::is_convertible<U *, T *>>;
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public:
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using value_type = T;
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using reference = T &;
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using const_reference = const T &;
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using size_type = size_t;
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/* Default construction creates an empty view. */
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constexpr array_view () noexcept
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: m_array (nullptr), m_size (0)
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{}
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/* Create an array view over a single object of the type of an
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array_view element. The created view as size==1. This is
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templated on U to allow constructing a array_view<const T> over a
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(non-const) T. The "convertible" requirement makes sure that you
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can't create an array_view<T> over a const T. */
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template<typename U,
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typename = Requires<DecayedConvertible<U>>>
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constexpr array_view (U &elem) noexcept
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: m_array (&elem), m_size (1)
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{}
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/* Same as above, for rvalue references. */
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template<typename U,
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typename = Requires<DecayedConvertible<U>>>
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constexpr array_view (U &&elem) noexcept
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: m_array (&elem), m_size (1)
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{}
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/* Create an array view from a pointer to an array and an element
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count. */
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template<typename U,
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typename = Requires<DecayedConvertible<U>>>
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constexpr array_view (U *array, size_t size) noexcept
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: m_array (array), m_size (size)
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{}
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/* Create an array view from a range. This is templated on both U
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an V to allow passing in a mix of 'const T *' and 'T *'. */
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template<typename U, typename V,
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typename = Requires<DecayedConvertible<U>>,
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typename = Requires<DecayedConvertible<V>>>
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constexpr array_view (U *begin, V *end) noexcept
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: m_array (begin), m_size (end - begin)
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{}
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/* Create an array view from an array. */
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template<typename U, size_t Size,
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typename = Requires<DecayedConvertible<U>>>
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constexpr array_view (U (&array)[Size]) noexcept
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: m_array (array), m_size (Size)
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{}
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/* Create an array view from a contiguous container. E.g.,
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std::vector and std::array. */
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template<typename Container,
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typename = Requires<gdb::Not<IsDecayedT<Container>>>,
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typename
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= Requires<std::is_convertible
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<decltype (std::declval<Container> ().data ()),
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T *>>,
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typename
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= Requires<std::is_convertible
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<decltype (std::declval<Container> ().size ()),
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size_type>>>
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constexpr array_view (Container &&c) noexcept
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: m_array (c.data ()), m_size (c.size ())
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{}
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/* Observer methods. Some of these can't be constexpr until we
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require C++14. */
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/*constexpr14*/ T *data () noexcept { return m_array; }
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constexpr const T *data () const noexcept { return m_array; }
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/*constexpr14*/ T *begin () noexcept { return m_array; }
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constexpr const T *begin () const noexcept { return m_array; }
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/*constexpr14*/ T *end () noexcept { return m_array + m_size; }
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constexpr const T *end () const noexcept { return m_array + m_size; }
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/*constexpr14*/ reference operator[] (size_t index) noexcept
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{ return m_array[index]; }
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constexpr const_reference operator[] (size_t index) const noexcept
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{ return m_array[index]; }
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constexpr size_type size () const noexcept { return m_size; }
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constexpr bool empty () const noexcept { return m_size == 0; }
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/* Slice an array view. */
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/* Return a new array view over SIZE elements starting at START. */
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constexpr array_view<T> slice (size_type start, size_type size) const noexcept
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{ return {m_array + start, size}; }
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/* Return a new array view over all the elements after START,
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inclusive. */
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constexpr array_view<T> slice (size_type start) const noexcept
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{ return {m_array + start, size () - start}; }
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private:
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T *m_array;
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size_type m_size;
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};
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/* Compare LHS and RHS for (deep) equality. That is, whether LHS and
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RHS have the same sizes, and whether each pair of elements of LHS
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and RHS at the same position compares equal. */
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template <typename T>
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bool
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operator== (const gdb::array_view<T> &lhs, const gdb::array_view<T> &rhs)
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{
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if (lhs.size () != rhs.size ())
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return false;
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for (size_t i = 0; i < lhs.size (); i++)
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if (!(lhs[i] == rhs[i]))
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return false;
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return true;
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}
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/* Compare two array_views for inequality. */
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template <typename T>
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bool
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operator!= (const gdb::array_view<T> &lhs, const gdb::array_view<T> &rhs)
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{
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return !(lhs == rhs);
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}
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/* Create an array view from a pointer to an array and an element
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count.
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This is useful as alternative to constructing an array_view using
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brace initialization when the size variable you have handy is of
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signed type, since otherwise without an explicit cast the code
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would be ill-formed.
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For example, with:
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extern void foo (int, int, gdb::array_view<value *>);
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value *args[2];
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int nargs;
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foo (1, 2, {values, nargs});
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You'd get:
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source.c:10: error: narrowing conversion of ‘nargs’ from ‘int’ to
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‘size_t {aka long unsigned int}’ inside { } [-Werror=narrowing]
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You could fix it by writing the somewhat distracting explicit cast:
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foo (1, 2, {values, (size_t) nargs});
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Or by instantiating an array_view explicitly:
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foo (1, 2, gdb::array_view<value *>(values, nargs));
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Or, better, using make_array_view, which has the advantage of
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inferring the arrav_view element's type:
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foo (1, 2, gdb::make_array_view (values, nargs));
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*/
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template<typename U>
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constexpr inline array_view<U>
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make_array_view (U *array, size_t size) noexcept
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{
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return {array, size};
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}
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} /* namespace gdb */
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#endif
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