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llvm-project/libcxx/test/std/input.output/filesystems/class.path/path.member/path.append.pass.cpp
Eric Fiselier 998a5c8831 Implement <filesystem> 
This patch implements the <filesystem> header and uses that
to provide <experimental/filesystem>.

Unlike other standard headers, the symbols needed for <filesystem>
have not yet been placed in libc++.so. Instead they live in the
new libc++fs.a library. Users of filesystem are required to link this
library. (Also note that libc++experimental no longer contains the
definition of <experimental/filesystem>, which now requires linking libc++fs).

The reason for keeping <filesystem> out of the dylib for now is that
it's still somewhat experimental, and the possibility of requiring an
ABI breaking change is very real. In the future the symbols will likely
be moved into the dylib, or the dylib will be made to link libc++fs automagically).

Note that moving the symbols out of libc++experimental may break user builds
until they update to -lc++fs. This should be OK, because the experimental
library provides no stability guarantees. However, I plan on looking into
ways we can force libc++experimental to automagically link libc++fs.

In order to use a single implementation and set of tests for <filesystem>, it
has been placed in a special `__fs` namespace. This namespace is inline in
C++17 onward, but not before that. As such implementation is available
in C++11 onward, but no filesystem namespace is present "directly", and
as such name conflicts shouldn't occur in C++11 or C++14.

llvm-svn: 338093
2018-07-27 03:07:09 +00:00

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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();
}
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