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llvm-6502/lib/Support/PathV2.cpp
Chandler Carruth d04a8d4b33 Use the new script to sort the includes of every file under lib. 
Sooooo many of these had incorrect or strange main module includes.
I have manually inspected all of these, and fixed the main module
include to be the nearest plausible thing I could find. If you own or
care about any of these source files, I encourage you to take some time
and check that these edits were sensible. I can't have broken anything
(I strictly added headers, and reordered them, never removed), but they
may not be the headers you'd really like to identify as containing the
API being implemented.

Many forward declarations and missing includes were added to a header
files to allow them to parse cleanly when included first. The main
module rule does in fact have its merits. =]

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@169131 91177308-0d34-0410-b5e6-96231b3b80d8
2012-12-03 16:50:05 +00:00

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//===-- PathV2.cpp - Implement OS Path Concept ------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the operating system PathV2 API.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/PathV2.h"
#include "llvm/Support/Endian.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/FileSystem.h"
#include <cctype>
#include <cstdio>
#include <cstring>
namespace {
using llvm::StringRef;
using llvm::sys::path::is_separator;
#ifdef LLVM_ON_WIN32
const char *separators = "\\/";
const char prefered_separator = '\\';
#else
const char separators = '/';
const char prefered_separator = '/';
#endif
StringRef find_first_component(StringRef path) {
// Look for this first component in the following order.
// * empty (in this case we return an empty string)
// * either C: or {//,\\}net.
// * {/,\}
// * {.,..}
// * {file,directory}name
if (path.empty())
return path;
#ifdef LLVM_ON_WIN32
// C:
if (path.size() >= 2 && std::isalpha(path[0]) && path[1] == ':')
return path.substr(0, 2);
#endif
// //net
if ((path.size() > 2) &&
is_separator(path[0]) &&
path[0] == path[1] &&
!is_separator(path[2])) {
// Find the next directory separator.
size_t end = path.find_first_of(separators, 2);
return path.substr(0, end);
}
// {/,\}
if (is_separator(path[0]))
return path.substr(0, 1);
if (path.startswith(".."))
return path.substr(0, 2);
if (path[0] == '.')
return path.substr(0, 1);
// * {file,directory}name
size_t end = path.find_first_of(separators, 2);
return path.substr(0, end);
}
size_t filename_pos(StringRef str) {
if (str.size() == 2 &&
is_separator(str[0]) &&
str[0] == str[1])
return 0;
if (str.size() > 0 && is_separator(str[str.size() - 1]))
return str.size() - 1;
size_t pos = str.find_last_of(separators, str.size() - 1);
#ifdef LLVM_ON_WIN32
if (pos == StringRef::npos)
pos = str.find_last_of(':', str.size() - 2);
#endif
if (pos == StringRef::npos ||
(pos == 1 && is_separator(str[0])))
return 0;
return pos + 1;
}
size_t root_dir_start(StringRef str) {
// case "c:/"
#ifdef LLVM_ON_WIN32
if (str.size() > 2 &&
str[1] == ':' &&
is_separator(str[2]))
return 2;
#endif
// case "//"
if (str.size() == 2 &&
is_separator(str[0]) &&
str[0] == str[1])
return StringRef::npos;
// case "//net"
if (str.size() > 3 &&
is_separator(str[0]) &&
str[0] == str[1] &&
!is_separator(str[2])) {
return str.find_first_of(separators, 2);
}
// case "/"
if (str.size() > 0 && is_separator(str[0]))
return 0;
return StringRef::npos;
}
size_t parent_path_end(StringRef path) {
size_t end_pos = filename_pos(path);
bool filename_was_sep = path.size() > 0 && is_separator(path[end_pos]);
// Skip separators except for root dir.
size_t root_dir_pos = root_dir_start(path.substr(0, end_pos));
while(end_pos > 0 &&
(end_pos - 1) != root_dir_pos &&
is_separator(path[end_pos - 1]))
--end_pos;
if (end_pos == 1 && root_dir_pos == 0 && filename_was_sep)
return StringRef::npos;
return end_pos;
}
} // end unnamed namespace
namespace llvm {
namespace sys {
namespace path {
const_iterator begin(StringRef path) {
const_iterator i;
i.Path = path;
i.Component = find_first_component(path);
i.Position = 0;
return i;
}
const_iterator end(StringRef path) {
const_iterator i;
i.Path = path;
i.Position = path.size();
return i;
}
const_iterator &const_iterator::operator++() {
assert(Position < Path.size() && "Tried to increment past end!");
// Increment Position to past the current component
Position += Component.size();
// Check for end.
if (Position == Path.size()) {
Component = StringRef();
return *this;
}
// Both POSIX and Windows treat paths that begin with exactly two separators
// specially.
bool was_net = Component.size() > 2 &&
is_separator(Component[0]) &&
Component[1] == Component[0] &&
!is_separator(Component[2]);
// Handle separators.
if (is_separator(Path[Position])) {
// Root dir.
if (was_net
#ifdef LLVM_ON_WIN32
// c:/
|| Component.endswith(":")
#endif
) {
Component = Path.substr(Position, 1);
return *this;
}
// Skip extra separators.
while (Position != Path.size() &&
is_separator(Path[Position])) {
++Position;
}
// Treat trailing '/' as a '.'.
if (Position == Path.size()) {
--Position;
Component = ".";
return *this;
}
}
// Find next component.
size_t end_pos = Path.find_first_of(separators, Position);
Component = Path.slice(Position, end_pos);
return *this;
}
const_iterator &const_iterator::operator--() {
// If we're at the end and the previous char was a '/', return '.'.
if (Position == Path.size() &&
Path.size() > 1 &&
is_separator(Path[Position - 1])
#ifdef LLVM_ON_WIN32
&& Path[Position - 2] != ':'
#endif
) {
--Position;
Component = ".";
return *this;
}
// Skip separators unless it's the root directory.
size_t root_dir_pos = root_dir_start(Path);
size_t end_pos = Position;
while(end_pos > 0 &&
(end_pos - 1) != root_dir_pos &&
is_separator(Path[end_pos - 1]))
--end_pos;
// Find next separator.
size_t start_pos = filename_pos(Path.substr(0, end_pos));
Component = Path.slice(start_pos, end_pos);
Position = start_pos;
return *this;
}
bool const_iterator::operator==(const const_iterator &RHS) const {
return Path.begin() == RHS.Path.begin() &&
Position == RHS.Position;
}
bool const_iterator::operator!=(const const_iterator &RHS) const {
return !(*this == RHS);
}
ptrdiff_t const_iterator::operator-(const const_iterator &RHS) const {
return Position - RHS.Position;
}
const StringRef root_path(StringRef path) {
const_iterator b = begin(path),
pos = b,
e = end(path);
if (b != e) {
bool has_net = b->size() > 2 && is_separator((*b)[0]) && (*b)[1] == (*b)[0];
bool has_drive =
#ifdef LLVM_ON_WIN32
b->endswith(":");
#else
false;
#endif
if (has_net || has_drive) {
if ((++pos != e) && is_separator((*pos)[0])) {
// {C:/,//net/}, so get the first two components.
return path.substr(0, b->size() + pos->size());
} else {
// just {C:,//net}, return the first component.
return *b;
}
}
// POSIX style root directory.
if (is_separator((*b)[0])) {
return *b;
}
}
return StringRef();
}
const StringRef root_name(StringRef path) {
const_iterator b = begin(path),
e = end(path);
if (b != e) {
bool has_net = b->size() > 2 && is_separator((*b)[0]) && (*b)[1] == (*b)[0];
bool has_drive =
#ifdef LLVM_ON_WIN32
b->endswith(":");
#else
false;
#endif
if (has_net || has_drive) {
// just {C:,//net}, return the first component.
return *b;
}
}
// No path or no name.
return StringRef();
}
const StringRef root_directory(StringRef path) {
const_iterator b = begin(path),
pos = b,
e = end(path);
if (b != e) {
bool has_net = b->size() > 2 && is_separator((*b)[0]) && (*b)[1] == (*b)[0];
bool has_drive =
#ifdef LLVM_ON_WIN32
b->endswith(":");
#else
false;
#endif
if ((has_net || has_drive) &&
// {C:,//net}, skip to the next component.
(++pos != e) && is_separator((*pos)[0])) {
return *pos;
}
// POSIX style root directory.
if (!has_net && is_separator((*b)[0])) {
return *b;
}
}
// No path or no root.
return StringRef();
}
const StringRef relative_path(StringRef path) {
StringRef root = root_path(path);
return path.substr(root.size());
}
void append(SmallVectorImpl<char> &path, const Twine &a,
const Twine &b,
const Twine &c,
const Twine &d) {
SmallString<32> a_storage;
SmallString<32> b_storage;
SmallString<32> c_storage;
SmallString<32> d_storage;
SmallVector<StringRef, 4> components;
if (!a.isTriviallyEmpty()) components.push_back(a.toStringRef(a_storage));
if (!b.isTriviallyEmpty()) components.push_back(b.toStringRef(b_storage));
if (!c.isTriviallyEmpty()) components.push_back(c.toStringRef(c_storage));
if (!d.isTriviallyEmpty()) components.push_back(d.toStringRef(d_storage));
for (SmallVectorImpl<StringRef>::const_iterator i = components.begin(),
e = components.end();
i != e; ++i) {
bool path_has_sep = !path.empty() && is_separator(path[path.size() - 1]);
bool component_has_sep = !i->empty() && is_separator((*i)[0]);
bool is_root_name = has_root_name(*i);
if (path_has_sep) {
// Strip separators from beginning of component.
size_t loc = i->find_first_not_of(separators);
StringRef c = i->substr(loc);
// Append it.
path.append(c.begin(), c.end());
continue;
}
if (!component_has_sep && !(path.empty() || is_root_name)) {
// Add a separator.
path.push_back(prefered_separator);
}
path.append(i->begin(), i->end());
}
}
void append(SmallVectorImpl<char> &path,
const_iterator begin, const_iterator end) {
for (; begin != end; ++begin)
path::append(path, *begin);
}
const StringRef parent_path(StringRef path) {
size_t end_pos = parent_path_end(path);
if (end_pos == StringRef::npos)
return StringRef();
else
return path.substr(0, end_pos);
}
void remove_filename(SmallVectorImpl<char> &path) {
size_t end_pos = parent_path_end(StringRef(path.begin(), path.size()));
if (end_pos != StringRef::npos)
path.set_size(end_pos);
}
void replace_extension(SmallVectorImpl<char> &path, const Twine &extension) {
StringRef p(path.begin(), path.size());
SmallString<32> ext_storage;
StringRef ext = extension.toStringRef(ext_storage);
// Erase existing extension.
size_t pos = p.find_last_of('.');
if (pos != StringRef::npos && pos >= filename_pos(p))
path.set_size(pos);
// Append '.' if needed.
if (ext.size() > 0 && ext[0] != '.')
path.push_back('.');
// Append extension.
path.append(ext.begin(), ext.end());
}
void native(const Twine &path, SmallVectorImpl<char> &result) {
// Clear result.
result.clear();
#ifdef LLVM_ON_WIN32
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
result.reserve(p.size());
for (StringRef::const_iterator i = p.begin(),
e = p.end();
i != e;
++i) {
if (*i == '/')
result.push_back('\\');
else
result.push_back(*i);
}
#else
path.toVector(result);
#endif
}
const StringRef filename(StringRef path) {
return *(--end(path));
}
const StringRef stem(StringRef path) {
StringRef fname = filename(path);
size_t pos = fname.find_last_of('.');
if (pos == StringRef::npos)
return fname;
else
if ((fname.size() == 1 && fname == ".") ||
(fname.size() == 2 && fname == ".."))
return fname;
else
return fname.substr(0, pos);
}
const StringRef extension(StringRef path) {
StringRef fname = filename(path);
size_t pos = fname.find_last_of('.');
if (pos == StringRef::npos)
return StringRef();
else
if ((fname.size() == 1 && fname == ".") ||
(fname.size() == 2 && fname == ".."))
return StringRef();
else
return fname.substr(pos);
}
bool is_separator(char value) {
switch(value) {
#ifdef LLVM_ON_WIN32
case '\\': // fall through
#endif
case '/': return true;
default: return false;
}
}
void system_temp_directory(bool erasedOnReboot, SmallVectorImpl<char> &result) {
result.clear();
// Check whether the temporary directory is specified by an environment
// variable.
const char *EnvironmentVariable;
#ifdef LLVM_ON_WIN32
EnvironmentVariable = "TEMP";
#else
EnvironmentVariable = "TMPDIR";
#endif
if (char *RequestedDir = getenv(EnvironmentVariable)) {
result.append(RequestedDir, RequestedDir + strlen(RequestedDir));
return;
}
// Fall back to a system default.
const char *DefaultResult;
#ifdef LLVM_ON_WIN32
(void)erasedOnReboot;
DefaultResult = "C:\\TEMP";
#else
if (erasedOnReboot)
DefaultResult = "/tmp";
else
DefaultResult = "/var/tmp";
#endif
result.append(DefaultResult, DefaultResult + strlen(DefaultResult));
}
bool has_root_name(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !root_name(p).empty();
}
bool has_root_directory(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !root_directory(p).empty();
}
bool has_root_path(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !root_path(p).empty();
}
bool has_relative_path(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !relative_path(p).empty();
}
bool has_filename(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !filename(p).empty();
}
bool has_parent_path(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !parent_path(p).empty();
}
bool has_stem(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !stem(p).empty();
}
bool has_extension(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
return !extension(p).empty();
}
bool is_absolute(const Twine &path) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
bool rootDir = has_root_directory(p),
#ifdef LLVM_ON_WIN32
rootName = has_root_name(p);
#else
rootName = true;
#endif
return rootDir && rootName;
}
bool is_relative(const Twine &path) {
return !is_absolute(path);
}
} // end namespace path
namespace fs {
error_code make_absolute(SmallVectorImpl<char> &path) {
StringRef p(path.data(), path.size());
bool rootDirectory = path::has_root_directory(p),
#ifdef LLVM_ON_WIN32
rootName = path::has_root_name(p);
#else
rootName = true;
#endif
// Already absolute.
if (rootName && rootDirectory)
return error_code::success();
// All of the following conditions will need the current directory.
SmallString<128> current_dir;
if (error_code ec = current_path(current_dir)) return ec;
// Relative path. Prepend the current directory.
if (!rootName && !rootDirectory) {
// Append path to the current directory.
path::append(current_dir, p);
// Set path to the result.
path.swap(current_dir);
return error_code::success();
}
if (!rootName && rootDirectory) {
StringRef cdrn = path::root_name(current_dir);
SmallString<128> curDirRootName(cdrn.begin(), cdrn.end());
path::append(curDirRootName, p);
// Set path to the result.
path.swap(curDirRootName);
return error_code::success();
}
if (rootName && !rootDirectory) {
StringRef pRootName = path::root_name(p);
StringRef bRootDirectory = path::root_directory(current_dir);
StringRef bRelativePath = path::relative_path(current_dir);
StringRef pRelativePath = path::relative_path(p);
SmallString<128> res;
path::append(res, pRootName, bRootDirectory, bRelativePath, pRelativePath);
path.swap(res);
return error_code::success();
}
llvm_unreachable("All rootName and rootDirectory combinations should have "
"occurred above!");
}
error_code create_directories(const Twine &path, bool &existed) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
StringRef parent = path::parent_path(p);
if (!parent.empty()) {
bool parent_exists;
if (error_code ec = fs::exists(parent, parent_exists)) return ec;
if (!parent_exists)
if (error_code ec = create_directories(parent, existed)) return ec;
}
return create_directory(p, existed);
}
bool exists(file_status status) {
return status_known(status) && status.type() != file_type::file_not_found;
}
bool status_known(file_status s) {
return s.type() != file_type::status_error;
}
bool is_directory(file_status status) {
return status.type() == file_type::directory_file;
}
error_code is_directory(const Twine &path, bool &result) {
file_status st;
if (error_code ec = status(path, st))
return ec;
result = is_directory(st);
return error_code::success();
}
bool is_regular_file(file_status status) {
return status.type() == file_type::regular_file;
}
error_code is_regular_file(const Twine &path, bool &result) {
file_status st;
if (error_code ec = status(path, st))
return ec;
result = is_regular_file(st);
return error_code::success();
}
bool is_symlink(file_status status) {
return status.type() == file_type::symlink_file;
}
error_code is_symlink(const Twine &path, bool &result) {
file_status st;
if (error_code ec = status(path, st))
return ec;
result = is_symlink(st);
return error_code::success();
}
bool is_other(file_status status) {
return exists(status) &&
!is_regular_file(status) &&
!is_directory(status) &&
!is_symlink(status);
}
void directory_entry::replace_filename(const Twine &filename, file_status st) {
SmallString<128> path(Path.begin(), Path.end());
path::remove_filename(path);
path::append(path, filename);
Path = path.str();
Status = st;
}
error_code has_magic(const Twine &path, const Twine &magic, bool &result) {
SmallString<32> MagicStorage;
StringRef Magic = magic.toStringRef(MagicStorage);
SmallString<32> Buffer;
if (error_code ec = get_magic(path, Magic.size(), Buffer)) {
if (ec == errc::value_too_large) {
// Magic.size() > file_size(Path).
result = false;
return error_code::success();
}
return ec;
}
result = Magic == Buffer;
return error_code::success();
}
/// @brief Identify the magic in magic.
file_magic identify_magic(StringRef magic) {
if (magic.size() < 4)
return file_magic::unknown;
switch ((unsigned char)magic[0]) {
case 0xDE: // 0x0B17C0DE = BC wraper
if (magic[1] == (char)0xC0 && magic[2] == (char)0x17 &&
magic[3] == (char)0x0B)
return file_magic::bitcode;
break;
case 'B':
if (magic[1] == 'C' && magic[2] == (char)0xC0 && magic[3] == (char)0xDE)
return file_magic::bitcode;
break;
case '!':
if (magic.size() >= 8)
if (memcmp(magic.data(),"!<arch>\n",8) == 0)
return file_magic::archive;
break;
case '\177':
if (magic[1] == 'E' && magic[2] == 'L' && magic[3] == 'F') {
if (magic.size() >= 18 && magic[17] == 0)
switch (magic[16]) {
default: break;
case 1: return file_magic::elf_relocatable;
case 2: return file_magic::elf_executable;
case 3: return file_magic::elf_shared_object;
case 4: return file_magic::elf_core;
}
}
break;
case 0xCA:
if (magic[1] == char(0xFE) && magic[2] == char(0xBA) &&
magic[3] == char(0xBE)) {
// This is complicated by an overlap with Java class files.
// See the Mach-O section in /usr/share/file/magic for details.
if (magic.size() >= 8 && magic[7] < 43)
// FIXME: Universal Binary of any type.
return file_magic::macho_dynamically_linked_shared_lib;
}
break;
// The two magic numbers for mach-o are:
// 0xfeedface - 32-bit mach-o
// 0xfeedfacf - 64-bit mach-o
case 0xFE:
case 0xCE:
case 0xCF: {
uint16_t type = 0;
if (magic[0] == char(0xFE) && magic[1] == char(0xED) &&
magic[2] == char(0xFA) &&
(magic[3] == char(0xCE) || magic[3] == char(0xCF))) {
/* Native endian */
if (magic.size() >= 16) type = magic[14] << 8 | magic[15];
} else if ((magic[0] == char(0xCE) || magic[0] == char(0xCF)) &&
magic[1] == char(0xFA) && magic[2] == char(0xED) &&
magic[3] == char(0xFE)) {
/* Reverse endian */
if (magic.size() >= 14) type = magic[13] << 8 | magic[12];
}
switch (type) {
default: break;
case 1: return file_magic::macho_object;
case 2: return file_magic::macho_executable;
case 3: return file_magic::macho_fixed_virtual_memory_shared_lib;
case 4: return file_magic::macho_core;
case 5: return file_magic::macho_preload_executabl;
case 6: return file_magic::macho_dynamically_linked_shared_lib;
case 7: return file_magic::macho_dynamic_linker;
case 8: return file_magic::macho_bundle;
case 9: return file_magic::macho_dynamic_linker;
case 10: return file_magic::macho_dsym_companion;
}
break;
}
case 0xF0: // PowerPC Windows
case 0x83: // Alpha 32-bit
case 0x84: // Alpha 64-bit
case 0x66: // MPS R4000 Windows
case 0x50: // mc68K
case 0x4c: // 80386 Windows
if (magic[1] == 0x01)
return file_magic::coff_object;
case 0x90: // PA-RISC Windows
case 0x68: // mc68K Windows
if (magic[1] == 0x02)
return file_magic::coff_object;
break;
case 0x4d: // Possible MS-DOS stub on Windows PE file
if (magic[1] == 0x5a) {
uint32_t off =
*reinterpret_cast<const support::ulittle32_t*>(magic.data() + 0x3c);
// PE/COFF file, either EXE or DLL.
if (off < magic.size() && memcmp(magic.data() + off, "PE\0\0",4) == 0)
return file_magic::pecoff_executable;
}
break;
case 0x64: // x86-64 Windows.
if (magic[1] == char(0x86))
return file_magic::coff_object;
break;
default:
break;
}
return file_magic::unknown;
}
error_code identify_magic(const Twine &path, file_magic &result) {
SmallString<32> Magic;
error_code ec = get_magic(path, Magic.capacity(), Magic);
if (ec && ec != errc::value_too_large)
return ec;
result = identify_magic(Magic);
return error_code::success();
}
namespace {
error_code remove_all_r(StringRef path, file_type ft, uint32_t &count) {
if (ft == file_type::directory_file) {
// This code would be a lot better with exceptions ;/.
error_code ec;
directory_iterator i(path, ec);
if (ec) return ec;
for (directory_iterator e; i != e; i.increment(ec)) {
if (ec) return ec;
file_status st;
if (error_code ec = i->status(st)) return ec;
if (error_code ec = remove_all_r(i->path(), st.type(), count)) return ec;
}
bool obviously_this_exists;
if (error_code ec = remove(path, obviously_this_exists)) return ec;
assert(obviously_this_exists);
++count; // Include the directory itself in the items removed.
} else {
bool obviously_this_exists;
if (error_code ec = remove(path, obviously_this_exists)) return ec;
assert(obviously_this_exists);
++count;
}
return error_code::success();
}
} // end unnamed namespace
error_code remove_all(const Twine &path, uint32_t &num_removed) {
SmallString<128> path_storage;
StringRef p = path.toStringRef(path_storage);
file_status fs;
if (error_code ec = status(path, fs))
return ec;
num_removed = 0;
return remove_all_r(p, fs.type(), num_removed);
}
error_code directory_entry::status(file_status &result) const {
return fs::status(Path, result);
}
} // end namespace fs
} // end namespace sys
} // end namespace llvm
// Include the truly platform-specific parts.
#if defined(LLVM_ON_UNIX)
#include "Unix/PathV2.inc"
#endif
#if defined(LLVM_ON_WIN32)
#include "Windows/PathV2.inc"
#endif
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