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rust / rust-lang / llvm-project / 2a2ea6b49e79325e0d10d33fac2b10ea3bebcc7c / . / libcxx / test / std / ranges / range.access / size.pass.cpp
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//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// UNSUPPORTED: c++03, c++11, c++14, c++17
// std::ranges::size
#include <ranges>
#include <cassert>
#include "test_macros.h"
#include "test_iterators.h"
using RangeSizeT = decltype(std::ranges::size);
static_assert(!std::is_invocable_v<RangeSizeT, int[]>);
static_assert( std::is_invocable_v<RangeSizeT, int[1]>);
static_assert( std::is_invocable_v<RangeSizeT, int (&&)[1]>);
static_assert( std::is_invocable_v<RangeSizeT, int (&)[1]>);
struct Incomplete;
static_assert(!std::is_invocable_v<RangeSizeT, Incomplete[]>);
static_assert(!std::is_invocable_v<RangeSizeT, Incomplete(&)[]>);
static_assert(!std::is_invocable_v<RangeSizeT, Incomplete(&&)[]>);
extern Incomplete array_of_incomplete[42];
static_assert(std::ranges::size(array_of_incomplete) == 42);
static_assert(std::ranges::size(std::move(array_of_incomplete)) == 42);
static_assert(std::ranges::size(std::as_const(array_of_incomplete)) == 42);
static_assert(std::ranges::size(static_cast<const Incomplete(&&)[42]>(array_of_incomplete)) == 42);
struct SizeMember {
constexpr size_t size() { return 42; }
};
struct StaticSizeMember {
constexpr static size_t size() { return 42; }
};
static_assert(!std::is_invocable_v<RangeSizeT, const SizeMember>);
struct SizeFunction {
friend constexpr size_t size(SizeFunction) { return 42; }
};
// Make sure the size member is preferred.
struct SizeMemberAndFunction {
constexpr size_t size() { return 42; }
friend constexpr size_t size(SizeMemberAndFunction) { return 0; }
};
bool constexpr testArrayType() {
int a[4];
int b[1];
SizeMember c[4];
SizeFunction d[4];
assert(std::ranges::size(a) == 4);
ASSERT_SAME_TYPE(decltype(std::ranges::size(a)), size_t);
assert(std::ranges::size(b) == 1);
ASSERT_SAME_TYPE(decltype(std::ranges::size(b)), size_t);
assert(std::ranges::size(c) == 4);
ASSERT_SAME_TYPE(decltype(std::ranges::size(c)), size_t);
assert(std::ranges::size(d) == 4);
ASSERT_SAME_TYPE(decltype(std::ranges::size(d)), size_t);
return true;
}
struct SizeMemberConst {
constexpr size_t size() const { return 42; }
};
struct SizeMemberSigned {
constexpr long size() { return 42; }
};
bool constexpr testHasSizeMember() {
assert(std::ranges::size(SizeMember()) == 42);
ASSERT_SAME_TYPE(decltype(std::ranges::size(SizeMember())), size_t);
const SizeMemberConst sizeMemberConst;
assert(std::ranges::size(sizeMemberConst) == 42);
assert(std::ranges::size(SizeMemberAndFunction()) == 42);
assert(std::ranges::size(SizeMemberSigned()) == 42);
ASSERT_SAME_TYPE(decltype(std::ranges::size(SizeMemberSigned())), long);
assert(std::ranges::size(StaticSizeMember()) == 42);
ASSERT_SAME_TYPE(decltype(std::ranges::size(StaticSizeMember())), size_t);
return true;
}
struct MoveOnlySizeFunction {
MoveOnlySizeFunction() = default;
MoveOnlySizeFunction(MoveOnlySizeFunction &&) = default;
MoveOnlySizeFunction(MoveOnlySizeFunction const&) = delete;
friend constexpr size_t size(MoveOnlySizeFunction) { return 42; }
};
enum EnumSizeFunction {
a, b
};
constexpr size_t size(EnumSizeFunction) { return 42; }
struct SizeFunctionConst {
friend constexpr size_t size(const SizeFunctionConst) { return 42; }
};
struct SizeFunctionRef {
friend constexpr size_t size(SizeFunctionRef&) { return 42; }
};
struct SizeFunctionConstRef {
friend constexpr size_t size(SizeFunctionConstRef const&) { return 42; }
};
struct SizeFunctionSigned {
friend constexpr long size(SizeFunctionSigned) { return 42; }
};
bool constexpr testHasSizeFunction() {
assert(std::ranges::size(SizeFunction()) == 42);
ASSERT_SAME_TYPE(decltype(std::ranges::size(SizeFunction())), size_t);
static_assert(!std::is_invocable_v<RangeSizeT, MoveOnlySizeFunction>);
assert(std::ranges::size(EnumSizeFunction()) == 42);
assert(std::ranges::size(SizeFunctionConst()) == 42);
SizeFunctionRef a;
assert(std::ranges::size(a) == 42);
const SizeFunctionConstRef b;
assert(std::ranges::size(b) == 42);
assert(std::ranges::size(SizeFunctionSigned()) == 42);
ASSERT_SAME_TYPE(decltype(std::ranges::size(SizeFunctionSigned())), long);
return true;
}
struct Empty { };
static_assert(!std::is_invocable_v<RangeSizeT, Empty>);
struct InvalidReturnTypeMember {
Empty size();
};
struct InvalidReturnTypeFunction {
friend Empty size(InvalidReturnTypeFunction);
};
struct Convertible {
operator size_t();
};
struct ConvertibleReturnTypeMember {
Convertible size();
};
struct ConvertibleReturnTypeFunction {
friend Convertible size(ConvertibleReturnTypeFunction);
};
struct BoolReturnTypeMember {
bool size() const;
};
struct BoolReturnTypeFunction {
friend bool size(BoolReturnTypeFunction const&);
};
static_assert(!std::is_invocable_v<RangeSizeT, InvalidReturnTypeMember>);
static_assert(!std::is_invocable_v<RangeSizeT, InvalidReturnTypeFunction>);
static_assert( std::is_invocable_v<RangeSizeT, InvalidReturnTypeMember (&)[4]>);
static_assert( std::is_invocable_v<RangeSizeT, InvalidReturnTypeFunction (&)[4]>);
static_assert(!std::is_invocable_v<RangeSizeT, ConvertibleReturnTypeMember>);
static_assert(!std::is_invocable_v<RangeSizeT, ConvertibleReturnTypeFunction>);
static_assert(!std::is_invocable_v<RangeSizeT, BoolReturnTypeMember const&>);
static_assert(!std::is_invocable_v<RangeSizeT, BoolReturnTypeFunction const&>);
struct SizeMemberDisabled {
size_t size() { return 42; }
};
template <>
inline constexpr bool std::ranges::disable_sized_range<SizeMemberDisabled> = true;
struct ImproperlyDisabledMember {
size_t size() const { return 42; }
};
// Intentionally disabling "const ConstSizeMemberDisabled". This doesn't disable anything
// because T is always uncvrefed before being checked.
template <>
inline constexpr bool std::ranges::disable_sized_range<const ImproperlyDisabledMember> = true;
struct SizeFunctionDisabled {
friend size_t size(SizeFunctionDisabled) { return 42; }
};
template <>
inline constexpr bool std::ranges::disable_sized_range<SizeFunctionDisabled> = true;
struct ImproperlyDisabledFunction {
friend size_t size(ImproperlyDisabledFunction const&) { return 42; }
};
template <>
inline constexpr bool std::ranges::disable_sized_range<const ImproperlyDisabledFunction> = true;
static_assert( std::is_invocable_v<RangeSizeT, ImproperlyDisabledMember&>);
static_assert( std::is_invocable_v<RangeSizeT, const ImproperlyDisabledMember&>);
static_assert(!std::is_invocable_v<RangeSizeT, ImproperlyDisabledFunction&>);
static_assert( std::is_invocable_v<RangeSizeT, const ImproperlyDisabledFunction&>);
// No begin end.
struct HasMinusOperator {
friend constexpr size_t operator-(HasMinusOperator, HasMinusOperator) { return 2; }
};
static_assert(!std::is_invocable_v<RangeSizeT, HasMinusOperator>);
struct HasMinusBeginEnd {
struct sentinel {
friend bool operator==(sentinel, forward_iterator<int*>);
friend constexpr std::ptrdiff_t operator-(const sentinel, const forward_iterator<int*>) { return 2; }
friend constexpr std::ptrdiff_t operator-(const forward_iterator<int*>, const sentinel) { return 2; }
};
friend constexpr forward_iterator<int*> begin(HasMinusBeginEnd) { return {}; }
friend constexpr sentinel end(HasMinusBeginEnd) { return {}; }
};
struct other_forward_iterator : forward_iterator<int*> { };
struct InvalidMinusBeginEnd {
struct sentinel {
friend bool operator==(sentinel, other_forward_iterator);
friend constexpr std::ptrdiff_t operator-(const sentinel, const other_forward_iterator) { return 2; }
friend constexpr std::ptrdiff_t operator-(const other_forward_iterator, const sentinel) { return 2; }
};
friend constexpr other_forward_iterator begin(InvalidMinusBeginEnd) { return {}; }
friend constexpr sentinel end(InvalidMinusBeginEnd) { return {}; }
};
// short is integer-like, but it is not other_forward_iterator's difference_type.
static_assert(!std::same_as<other_forward_iterator::difference_type, short>);
static_assert(!std::is_invocable_v<RangeSizeT, InvalidMinusBeginEnd>);
struct RandomAccessRange {
struct sentinel {
friend bool operator==(sentinel, random_access_iterator<int*>);
friend constexpr std::ptrdiff_t operator-(const sentinel, const random_access_iterator<int*>) { return 2; }
friend constexpr std::ptrdiff_t operator-(const random_access_iterator<int*>, const sentinel) { return 2; }
};
constexpr random_access_iterator<int*> begin() { return {}; }
constexpr sentinel end() { return {}; }
};
struct IntPtrBeginAndEnd {
int buff[8];
constexpr int* begin() { return buff; }
constexpr int* end() { return buff + 8; }
};
struct DisabledSizeRangeWithBeginEnd {
int buff[8];
constexpr int* begin() { return buff; }
constexpr int* end() { return buff + 8; }
constexpr size_t size() { return 1; }
};
template <>
inline constexpr bool std::ranges::disable_sized_range<DisabledSizeRangeWithBeginEnd> = true;
struct SizeBeginAndEndMembers {
int buff[8];
constexpr int* begin() { return buff; }
constexpr int* end() { return buff + 8; }
constexpr size_t size() { return 1; }
};
constexpr bool testRanges() {
HasMinusBeginEnd a;
assert(std::ranges::size(a) == 2);
// Ensure that this is converted to an *unsigned* type.
ASSERT_SAME_TYPE(decltype(std::ranges::size(a)), size_t);
IntPtrBeginAndEnd b;
assert(std::ranges::size(b) == 8);
DisabledSizeRangeWithBeginEnd c;
assert(std::ranges::size(c) == 8);
RandomAccessRange d;
assert(std::ranges::size(d) == 2);
ASSERT_SAME_TYPE(decltype(std::ranges::size(d)), size_t);
SizeBeginAndEndMembers e;
assert(std::ranges::size(e) == 1);
return true;
}
// Test ADL-proofing.
struct Incomplete;
template<class T> struct Holder { T t; };
static_assert(!std::is_invocable_v<RangeSizeT, Holder<Incomplete>*>);
static_assert(!std::is_invocable_v<RangeSizeT, Holder<Incomplete>*&>);
int main(int, char**) {
testArrayType();
static_assert(testArrayType());
testHasSizeMember();
static_assert(testHasSizeMember());
testHasSizeFunction();
static_assert(testHasSizeFunction());
testRanges();
static_assert(testRanges());
return 0;
}