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// Copyright 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// This is a "No Compile Test" suite.
// http://dev.chromium.org/developers/testing/no-compile-tests
#include "base/containers/span.h"
#include <array>
#include <set>
#include <vector>
#include "base/strings/string_piece.h"
namespace base {
class Base {
};
class Derived : Base {
};
#if defined(NCTEST_DEFAULT_SPAN_WITH_NON_ZERO_STATIC_EXTENT_DISALLOWED) // [r"fatal error: static_assert failed due to requirement '1UL == dynamic_extent || 1UL == 0' \"Invalid Extent\""]
// A default constructed span must have an extent of 0 or dynamic_extent.
void WontCompile() {
span<int, 1> span;
}
#elif defined(NCTEST_SPAN_FROM_ARRAY_WITH_NON_MATCHING_STATIC_EXTENT_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<int, 1>'"]
// A span with static extent constructed from an array must match the size of
// the array.
void WontCompile() {
int array[] = {1, 2, 3};
span<int, 1> span(array);
}
#elif defined(NCTEST_SPAN_FROM_OTHER_SPAN_WITH_MISMATCHING_EXTENT_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<int, 4>'"]
// A span with static extent constructed from another span must match the
// extent.
void WontCompile() {
std::array<int, 3> array = {1, 2, 3};
span<int, 3> span3(array);
span<int, 4> span4(span3);
}
#elif defined(NCTEST_DYNAMIC_SPAN_TO_STATIC_SPAN_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<int, 3>'"]
// Converting a dynamic span to a static span should not be allowed.
void WontCompile() {
span<int> dynamic_span;
span<int, 3> static_span(dynamic_span);
}
#elif defined(NCTEST_DERIVED_TO_BASE_CONVERSION_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<base::Base \*>'"]
// Internally, this is represented as a pointer to pointers to Derived. An
// implicit conversion to a pointer to pointers to Base must not be allowed.
// If it were allowed, then something like this would be possible.
// Cat** cats = GetCats();
// Animals** animals = cats;
// animals[0] = new Dog(); // Uhoh!
void WontCompile() {
span<Derived*> derived_span;
span<Base*> base_span(derived_span);
}
#elif defined(NCTEST_PTR_TO_CONSTPTR_CONVERSION_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<const int \*>'"]
// Similarly, converting a span<int*> to span<const int*> requires internally
// converting T** to const T**. This is also disallowed, as it would allow code
// to violate the contract of const.
void WontCompile() {
span<int*> non_const_span;
span<const int*> const_span(non_const_span);
}
#elif defined(NCTEST_CONST_CONTAINER_TO_MUTABLE_CONVERSION_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<int>'"]
// A const container should not be convertible to a mutable span.
void WontCompile() {
const std::vector<int> v = {1, 2, 3};
span<int> span(v);
}
#elif defined(NCTEST_IMPLICIT_CONVERSION_FROM_DYNAMIC_CONST_CONTAINER_TO_STATIC_SPAN_DISALLOWED) // [r"fatal error: no viable conversion from 'const std::vector<int>' to 'span<const int, 3>'"]
// A dynamic const container should not be implicitly convertible to a static span.
void WontCompile() {
const std::vector<int> v = {1, 2, 3};
span<const int, 3> span = v;
}
#elif defined(NCTEST_IMPLICIT_CONVERSION_FROM_DYNAMIC_MUTABLE_CONTAINER_TO_STATIC_SPAN_DISALLOWED) // [r"fatal error: no viable conversion from 'std::vector<int>' to 'span<int, 3>'"]
// A dynamic mutable container should not be implicitly convertible to a static span.
void WontCompile() {
std::vector<int> v = {1, 2, 3};
span<int, 3> span = v;
}
#elif defined(NCTEST_STD_SET_ITER_SIZE_CONVERSION_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<int>'"]
// A std::set() should not satisfy the requirements for conversion to a span.
void WontCompile() {
std::set<int> set;
span<int> span(set.begin(), 0);
}
#elif defined(NCTEST_STD_SET_ITER_ITER_CONVERSION_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<int>'"]
// A std::set() should not satisfy the requirements for conversion to a span.
void WontCompile() {
std::set<int> set;
span<int> span(set.begin(), set.end());
}
#elif defined(NCTEST_STD_SET_CONVERSION_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<int>'"]
// A std::set() should not satisfy the requirements for conversion to a span.
void WontCompile() {
std::set<int> set;
span<int> span(set);
}
#elif defined(NCTEST_STATIC_FRONT_WITH_EXCEEDING_COUNT_DISALLOWED) // [r" fatal error: static_assert failed due to requirement '3UL == dynamic_extent || 4UL <= 3UL' \"Count must not exceed Extent\""]
// Static first called on a span with static extent must not exceed the size.
void WontCompile() {
std::array<int, 3> array = {1, 2, 3};
span<int, 3> span(array);
auto first = span.first<4>();
}
#elif defined(NCTEST_STATIC_LAST_WITH_EXCEEDING_COUNT_DISALLOWED) // [r"fatal error: static_assert failed due to requirement '3UL == dynamic_extent || 4UL <= 3UL' \"Count must not exceed Extent\""]
// Static last called on a span with static extent must not exceed the size.
void WontCompile() {
std::array<int, 3> array = {1, 2, 3};
span<int, 3> span(array);
auto last = span.last<4>();
}
#elif defined(NCTEST_STATIC_SUBSPAN_WITH_EXCEEDING_OFFSET_DISALLOWED) // [r"fatal error: static_assert failed due to requirement '3UL == dynamic_extent || 4UL <= 3UL' \"Count must not exceed Extent\""]
// Static subspan called on a span with static extent must not exceed the size.
void WontCompile() {
std::array<int, 3> array = {1, 2, 3};
span<int, 3> span(array);
auto subspan = span.subspan<4>();
}
#elif defined(NCTEST_STATIC_SUBSPAN_WITH_EXCEEDING_COUNT_DISALLOWED) // [r"fatal error: static_assert failed due to requirement '3UL == dynamic_extent || 4UL == dynamic_extent || 4UL <= 3UL - 0UL' \"Count must not exceed Extent - Offset\""]
// Static subspan called on a span with static extent must not exceed the size.
void WontCompile() {
std::array<int, 3> array = {1, 2, 3};
span<int, 3> span(array);
auto subspan = span.subspan<0, 4>();
}
#elif defined(NCTEST_DISCARD_RETURN_OF_EMPTY_DISALLOWED) // [r"ignoring return value of function"]
// Discarding the return value of empty() is not allowed.
void WontCompile() {
span<int> s;
s.empty();
}
#elif defined(NCTEST_FRONT_ON_EMPTY_STATIC_SPAN_DISALLOWED) // [r"Extent must not be 0"]
// Front called on an empty span with static extent is not allowed.
void WontCompile() {
span<int, 0> s;
s.front();
}
#elif defined(NCTEST_BACK_ON_EMPTY_STATIC_SPAN_DISALLOWED) // [r"Extent must not be 0"]
// Back called on an empty span with static extent is not allowed.
void WontCompile() {
span<int, 0> s;
s.back();
}
#elif defined(NCTEST_SWAP_WITH_DIFFERENT_EXTENTS_DISALLOWED) // [r"no matching function for call to 'swap'"]
// Calling swap on spans with different extents is not allowed.
void WontCompile() {
std::array<int, 3> array = {1, 2, 3};
span<int, 3> static_span(array);
span<int> dynamic_span(array);
std::swap(static_span, dynamic_span);
}
#elif defined(NCTEST_AS_WRITABLE_BYTES_WITH_CONST_CONTAINER_DISALLOWED) // [r"fatal error: no matching function for call to 'as_writable_bytes'"]
// as_writable_bytes should not be possible for a const container.
void WontCompile() {
const std::vector<int> v = {1, 2, 3};
span<uint8_t> bytes = as_writable_bytes(make_span(v));
}
#elif defined(NCTEST_MAKE_SPAN_FROM_SET_ITER_CONVERSION_DISALLOWED) // [r"fatal error: no matching constructor for initialization of 'span<T>'"]
// A std::set() should not satisfy the requirements for conversion to a span.
void WontCompile() {
std::set<int> set;
auto span = make_span(set.begin(), set.end());
}
#elif defined(NCTEST_MAKE_SPAN_FROM_SET_CONVERSION_DISALLOWED) // [r"fatal error: no matching function for call to 'data'"]
// A std::set() should not satisfy the requirements for conversion to a span.
void WontCompile() {
std::set<int> set;
auto span = make_span(set);
}
#elif defined(NCTEST_CONST_VECTOR_DEDUCES_AS_CONST_SPAN) // [r"fatal error: no viable conversion from 'span<const int, \[...\]>' to 'span<int, \[...\]>'"]
int WontCompile() {
const std::vector<int> v;
span<int> s = make_span(v);
}
#elif defined(NCTEST_STATIC_MAKE_SPAN_FROM_ITER_AND_SIZE_CHECKS) // [r"constexpr variable 'made_span' must be initialized by a constant expression"]
// The static make_span<N>(begin, size) should CHECK whether N matches size.
// This should result in compilation failures when evaluated at compile
// time.
int WontCompile() {
constexpr StringPiece str = "Foo";
// Intentional extent mismatch causing CHECK failure.
constexpr auto made_span = make_span<2>(str.begin(), 3);
}
#elif defined(NCTEST_STATIC_MAKE_SPAN_FROM_ITERS_CHECKS_SIZE) // [r"constexpr variable 'made_span' must be initialized by a constant expression"]
// The static make_span<N>(begin, end) should CHECK whether N matches end -
// begin. This should result in compilation failures when evaluated at compile
// time.
int WontCompile() {
constexpr StringPiece str = "Foo";
// Intentional extent mismatch causing CHECK failure.
constexpr auto made_span = make_span<2>(str.begin(), str.end());
}
#elif defined(NCTEST_STATIC_MAKE_SPAN_CHECKS_SIZE) // [r"constexpr variable 'made_span' must be initialized by a constant expression"]
// The static make_span<N>(cont) should CHECK whether N matches size(cont). This
// should result in compilation failures when evaluated at compile time.
int WontCompile() {
constexpr StringPiece str = "Foo";
// Intentional extent mismatch causing CHECK failure.
constexpr auto made_span = make_span<2>(str);
}
#elif defined(NCTEST_EXTENT_NO_DYNAMIC_EXTENT) // [r"EXTENT should only be used for containers with a static extent"]
// EXTENT should not result in |dynamic_extent|, it should be a compile-time
// error.
void WontCompile() {
std::vector<uint8_t> vector;
static_assert(EXTENT(vector) == 0, "Should not compile");
}
#endif
} // namespace base
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