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//===----------------------------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
// UNSUPPORTED: c++98, c++03
// <filesystem>
// class path
// path& operator/=(path const&)
// template <class Source>
// path& operator/=(Source const&);
// template <class Source>
// path& append(Source const&);
// template <class InputIterator>
// path& append(InputIterator first, InputIterator last);
#include "filesystem_include.hpp"
#include <type_traits>
#include <string_view>
#include <cassert>
#include "test_macros.h"
#include "test_iterators.h"
#include "count_new.hpp"
#include "filesystem_test_helper.hpp"
#include "verbose_assert.h"
struct AppendOperatorTestcase {
MultiStringType lhs;
MultiStringType rhs;
MultiStringType expect;
};
#define S(Str) MKSTR(Str)
const AppendOperatorTestcase Cases[] =
{
{S(""), S(""), S("")}
, {S("p1"), S("p2"), S("p1/p2")}
, {S("p1/"), S("p2"), S("p1/p2")}
, {S("p1"), S("/p2"), S("/p2")}
, {S("p1/"), S("/p2"), S("/p2")}
, {S("p1"), S("\\p2"), S("p1/\\p2")}
, {S("p1\\"), S("p2"), S("p1\\/p2")}
, {S("p1\\"), S("\\p2"), S("p1\\/\\p2")}
, {S(""), S("p2"), S("p2")}
, {S("/p1"), S("p2"), S("/p1/p2")}
, {S("/p1"), S("/p2"), S("/p2")}
, {S("/p1/p3"), S("p2"), S("/p1/p3/p2")}
, {S("/p1/p3/"), S("p2"), S("/p1/p3/p2")}
, {S("/p1/"), S("p2"), S("/p1/p2")}
, {S("/p1/p3/"), S("/p2/p4"), S("/p2/p4")}
, {S("/"), S(""), S("/")}
, {S("/p1"), S("/p2/"), S("/p2/")}
, {S("p1"), S(""), S("p1/")}
, {S("p1/"), S(""), S("p1/")}
};
const AppendOperatorTestcase LongLHSCases[] =
{
{S("p1"), S("p2"), S("p1/p2")}
, {S("p1/"), S("p2"), S("p1/p2")}
, {S("p1"), S("/p2"), S("/p2")}
, {S("/p1"), S("p2"), S("/p1/p2")}
};
#undef S
// The append operator may need to allocate a temporary buffer before a code_cvt
// conversion. Test if this allocation occurs by:
// 1. Create a path, `LHS`, and reserve enough space to append `RHS`.
// This prevents `LHS` from allocating during the actual appending.
// 2. Create a `Source` object `RHS`, which represents a "large" string.
// (The string must not trigger the SSO)
// 3. Append `RHS` to `LHS` and check for the expected allocation behavior.
template <class CharT>
void doAppendSourceAllocTest(AppendOperatorTestcase const& TC)
{
using namespace fs;
using Ptr = CharT const*;
using Str = std::basic_string<CharT>;
using StrView = std::basic_string_view<CharT>;
using InputIter = input_iterator<Ptr>;
const Ptr L = TC.lhs;
Str RShort = (Ptr)TC.rhs;
Str EShort = (Ptr)TC.expect;
assert(RShort.size() >= 2);
CharT c = RShort.back();
RShort.append(100, c);
EShort.append(100, c);
const Ptr R = RShort.data();
const Str& E = EShort;
std::size_t ReserveSize = E.size() + 3;
// basic_string
{
path LHS(L); PathReserve(LHS, ReserveSize);
Str RHS(R);
{
DisableAllocationGuard g;
LHS /= RHS;
}
ASSERT_PRED(PathEq, LHS , E);
}
// basic_string_view
{
path LHS(L); PathReserve(LHS, ReserveSize);
StrView RHS(R);
{
DisableAllocationGuard g;
LHS /= RHS;
}
assert(PathEq(LHS, E));
}
// CharT*
{
path LHS(L); PathReserve(LHS, ReserveSize);
Ptr RHS(R);
{
DisableAllocationGuard g;
LHS /= RHS;
}
assert(PathEq(LHS, E));
}
{
path LHS(L); PathReserve(LHS, ReserveSize);
Ptr RHS(R);
{
DisableAllocationGuard g;
LHS.append(RHS, StrEnd(RHS));
}
assert(PathEq(LHS, E));
}
// input iterator - For non-native char types, appends needs to copy the
// iterator range into a contiguous block of memory before it can perform the
// code_cvt conversions.
// For "char" no allocations will be performed because no conversion is
// required.
bool DisableAllocations = std::is_same<CharT, char>::value;
{
path LHS(L); PathReserve(LHS, ReserveSize);
InputIter RHS(R);
{
RequireAllocationGuard g; // requires 1 or more allocations occur by default
if (DisableAllocations) g.requireExactly(0);
LHS /= RHS;
}
assert(PathEq(LHS, E));
}
{
path LHS(L); PathReserve(LHS, ReserveSize);
InputIter RHS(R);
InputIter REnd(StrEnd(R));
{
RequireAllocationGuard g;
if (DisableAllocations) g.requireExactly(0);
LHS.append(RHS, REnd);
}
assert(PathEq(LHS, E));
}
}
template <class CharT>
void doAppendSourceTest(AppendOperatorTestcase const& TC)
{
using namespace fs;
using Ptr = CharT const*;
using Str = std::basic_string<CharT>;
using StrView = std::basic_string_view<CharT>;
using InputIter = input_iterator<Ptr>;
const Ptr L = TC.lhs;
const Ptr R = TC.rhs;
const Ptr E = TC.expect;
// basic_string
{
path Result(L);
Str RHS(R);
path& Ref = (Result /= RHS);
ASSERT_EQ(Result, E)
<< DISPLAY(L) << DISPLAY(R);
assert(&Ref == &Result);
}
{
path LHS(L);
Str RHS(R);
path& Ref = LHS.append(RHS);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
// basic_string_view
{
path LHS(L);
StrView RHS(R);
path& Ref = (LHS /= RHS);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
{
path LHS(L);
StrView RHS(R);
path& Ref = LHS.append(RHS);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
// Char*
{
path LHS(L);
Str RHS(R);
path& Ref = (LHS /= RHS);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
{
path LHS(L);
Ptr RHS(R);
path& Ref = LHS.append(RHS);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
{
path LHS(L);
Ptr RHS(R);
path& Ref = LHS.append(RHS, StrEnd(RHS));
ASSERT_PRED(PathEq, LHS, E)
<< DISPLAY(L) << DISPLAY(R);
assert(&Ref == &LHS);
}
// iterators
{
path LHS(L);
InputIter RHS(R);
path& Ref = (LHS /= RHS);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
{
path LHS(L); InputIter RHS(R);
path& Ref = LHS.append(RHS);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
{
path LHS(L);
InputIter RHS(R);
InputIter REnd(StrEnd(R));
path& Ref = LHS.append(RHS, REnd);
assert(PathEq(LHS, E));
assert(&Ref == &LHS);
}
}
template <class It, class = decltype(fs::path{}.append(std::declval<It>()))>
constexpr bool has_append(int) { return true; }
template <class It>
constexpr bool has_append(long) { return false; }
template <class It, class = decltype(fs::path{}.operator/=(std::declval<It>()))>
constexpr bool has_append_op(int) { return true; }
template <class It>
constexpr bool has_append_op(long) { return false; }
template <class It>
constexpr bool has_append() {
static_assert(has_append<It>(0) == has_append_op<It>(0), "must be same");
return has_append<It>(0) && has_append_op<It>(0);
}
void test_sfinae()
{
using namespace fs;
{
using It = const char* const;
static_assert(has_append<It>(), "");
}
{
using It = input_iterator<const char*>;
static_assert(has_append<It>(), "");
}
{
struct Traits {
using iterator_category = std::input_iterator_tag;
using value_type = const char;
using pointer = const char*;
using reference = const char&;
using difference_type = std::ptrdiff_t;
};
using It = input_iterator<const char*, Traits>;
static_assert(has_append<It>(), "");
}
{
using It = output_iterator<const char*>;
static_assert(!has_append<It>(), "");
}
{
static_assert(!has_append<int*>(), "");
}
{
static_assert(!has_append<char>(), "");
static_assert(!has_append<const char>(), "");
}
}
int main()
{
using namespace fs;
for (auto const & TC : Cases) {
{
const char* LHS_In = TC.lhs;
const char* RHS_In = TC.rhs;
path LHS(LHS_In);
path RHS(RHS_In);
path& Res = (LHS /= RHS);
ASSERT_PRED(PathEq, Res, (const char*)TC.expect)
<< DISPLAY(LHS_In) << DISPLAY(RHS_In);
assert(&Res == &LHS);
}
doAppendSourceTest<char> (TC);
doAppendSourceTest<wchar_t> (TC);
doAppendSourceTest<char16_t>(TC);
doAppendSourceTest<char32_t>(TC);
}
for (auto const & TC : LongLHSCases) {
doAppendSourceAllocTest<char>(TC);
doAppendSourceAllocTest<wchar_t>(TC);
}
test_sfinae();
}