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swift-mirror/stdlib/include/llvm/ADT/StringExtras.h
Kuba (Brecka) Mracek 7e33575c6b Re-import LLVMSupport from llvm-project and enforce header includes only being used from the Swift fork when building stdlib (#40173) 
* Enforce using headers from Swift's LLVMSupport fork and not llvm-project when building stdlib

* [LLVMSupport] Re-import LLVMSupport .cpp and .h files from 9ff3a9759b7c2f146e7f46e4aebc60453c577c5a from apple/llvm-project

Done via the following commands, while having llvm-project checked out at 9ff3a9759b7c2f146e7f46e4aebc60453c577c5a, a
commit on the stable/20210726 branch of apple/llvm-project, <9ff3a9759b>:

for i in swift/stdlib/public/LLVMSupport/*.cpp ; do cp llvm-project/llvm/lib/Support/$(basename $i) $i ; done
for i in swift/stdlib/include/llvm/ADT/*.h; do cp llvm-project/llvm/include/llvm/ADT/$(basename $i) $i ; done
for i in swift/stdlib/include/llvm/Support/*.h; do cp llvm-project/llvm/include/llvm/Support/$(basename $i) $i ; done
cp llvm-project/llvm/include/llvm/ADT/ScopeExit.h swift/stdlib/include/llvm/ADT/ScopeExit.h
cp llvm-project/llvm/include/llvm/ADT/Twine.h swift/stdlib/include/llvm/ADT/Twine.h
cp llvm-project/llvm/include/llvm/Support/raw_ostream.h swift/stdlib/include/llvm/Support/raw_ostream.h

* [LLVMSupport] Re-namespace the LLVMSupport fork after re-forking by re-applying b72788c27a

More precisely:

1) git cherry-pick b72788c27a
2) manually resolve the conflict in AlignOf.h by keeping the HEAD's version of the chunk and discarding the cherry-pick's change
3) git add AlignOf.h
4) git status | grep "deleted by us" | awk '{print($4)}' | xargs git rm
5) git cherry-pick --continue

Original namespacing commit message:

> This adds the `__swift::__runtime` inline namespace to the LLVMSupport
> interfaces.  This avoids an ODR violation when LLVM and Swift are in the
> same address space.  It also will aid in the process of pruning the
> LLVMSupport library by ensuring that accidental leakage of the llvm
> namespace does not allow us to remove symbols which we rely on.

* [LLVMSupport] Re-apply "pruning" on re-forked LLVMSupport from bb102707ed

This re-applies the "pruning" commit from bb102707ed, which did the following:
- Remove many whole files,
- Remove "epoch tracking" and "reverse iteration" support from ADT containers
- Remove "ABI break checking" support from STLExtras
- Remove float parsing functions from StringExtras.h
- Remove APInt/APSInt dependencies from StringRef.h + StringRef.cpp (edit distance, int parsing)
- Remove some variants of error handling and dependency of dbgs() from ErrorHandling.h and ErrorHandling.cpp

We don't need to do the whole-file-removal step, because that's already done, but the rest is re-applied by doing:

1) git cherry-pick bb102707ed
2) manually resolving conflict in ADT/DenseMap.h by keeping HEAD's version of the chunk and removing epoch tracking from it
3) manually resolving conflict in ADT/STLExtras.h by keeping HEAD's version of the chunk and removing ABI check checking from it
4) manually resolving conflict in ADT/StringExtras.h by deleting the whole chunk (removing APInt/APSInt dependent functions)
5) manually resolving conflict in ErrorHandling.cpp by force-applying the cherry-pick's version (removing write() calls and OOM callback)
6) manually resolving the three conflicts in CMakeLists.txt files by keeping HEAD's version completely
7) git add stdlib/include/llvm/{ADT/StringSwitch.h,ADT/Twine.h,Support/raw_ostream.h}

Original commit description:

> Reduce LLVMSupport to the subset required for the runtime.  This reduces
> the TCB and the overheads of the runtime.  The inline namespace's
> preservation ensures that ODR violations do not occur.

* [LLVMSupport] Re-apply all post-import modifications on LLVMSupport that the Swift's fork has

Since the previous commits re-imported "vanilla" versions of LLVMSupport, we need to re-apply all modifications that the Swift's fork has made since the last import. More precisely:

1) git diff 7b70120440cd39d67a595a7d0ea4e828ecc6ee44..origin/main -- stdlib/include/llvm stdlib/public/LLVMSupport | git apply -3 --exclude "stdlib/include/llvm/Support/DataTypes.h" --exclude "stdlib/include/llvm/Config/llvm-config.h.cmake"
2) manually resolve conflict in STLExtras.h by applying the "__swift::__runtime" prefix to HEAD's version
3) manually resolve conflicts in StringSwitch.h by keeping HEAD's version (removing the Unicode BOM marker at the beginning of the file, keeping LLVM's version of the string functions)
4) manually resolve conflict in SwapByteOrder.h by adding the `defined(__wasi__)` part into the #if

* [LLVMSupport] Drop remaining dependencies on APSInt.h, Error.h, DataTypes.h and STLForwardCompat.h

Most cases can drop the #includes without any changes, in some cases there are
straighforward replacements (climits, cstdint). For STLForwardCompat.h, we need
to bring in parts of STLForwardCompat.h from llvm-project.

* [LLVMSupport] Remove raw_ostream.h and drop dependencies to it from the runtime

* [LLVMSupport] Simplify error reporting in SmallVector and avoid using std::string when producing fatal errors messages

Co-authored-by: Saleem Abdulrasool <compnerd@compnerd.org>
2021-12-02 17:21:51 -08:00

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//===- llvm/ADT/StringExtras.h - Useful string functions --------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This file contains some functions that are useful when dealing with strings.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_ADT_STRINGEXTRAS_H
#define LLVM_ADT_STRINGEXTRAS_H
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringRef.h"
#include <cassert>
#include <cstddef>
#include <cstdint>
#include <cstdlib>
#include <cstring>
#include <iterator>
#include <string>
#include <utility>
inline namespace __swift { inline namespace __runtime {
namespace llvm {
template<typename T> class SmallVectorImpl;
class raw_ostream;
/// hexdigit - Return the hexadecimal character for the
/// given number \p X (which should be less than 16).
inline char hexdigit(unsigned X, bool LowerCase = false) {
const char HexChar = LowerCase ? 'a' : 'A';
return X < 10 ? '0' + X : HexChar + X - 10;
}
/// Given an array of c-style strings terminated by a null pointer, construct
/// a vector of StringRefs representing the same strings without the terminating
/// null string.
inline std::vector<StringRef> toStringRefArray(const char *const *Strings) {
std::vector<StringRef> Result;
while (*Strings)
Result.push_back(*Strings++);
return Result;
}
/// Construct a string ref from a boolean.
inline StringRef toStringRef(bool B) { return StringRef(B ? "true" : "false"); }
/// Construct a string ref from an array ref of unsigned chars.
inline StringRef toStringRef(ArrayRef<uint8_t> Input) {
return StringRef(reinterpret_cast<const char *>(Input.begin()), Input.size());
}
/// Construct a string ref from an array ref of unsigned chars.
inline ArrayRef<uint8_t> arrayRefFromStringRef(StringRef Input) {
return {Input.bytes_begin(), Input.bytes_end()};
}
/// Interpret the given character \p C as a hexadecimal digit and return its
/// value.
///
/// If \p C is not a valid hex digit, -1U is returned.
inline unsigned hexDigitValue(char C) {
struct HexTable {
unsigned LUT[255] = {};
constexpr HexTable() {
// Default initialize everything to invalid.
for (int i = 0; i < 255; ++i)
LUT[i] = ~0U;
// Initialize `0`-`9`.
for (int i = 0; i < 10; ++i)
LUT['0' + i] = i;
// Initialize `A`-`F` and `a`-`f`.
for (int i = 0; i < 6; ++i)
LUT['A' + i] = LUT['a' + i] = 10 + i;
}
};
constexpr HexTable Table;
return Table.LUT[static_cast<unsigned char>(C)];
}
/// Checks if character \p C is one of the 10 decimal digits.
inline bool isDigit(char C) { return C >= '0' && C <= '9'; }
/// Checks if character \p C is a hexadecimal numeric character.
inline bool isHexDigit(char C) { return hexDigitValue(C) != ~0U; }
/// Checks if character \p C is a valid letter as classified by "C" locale.
inline bool isAlpha(char C) {
return ('a' <= C && C <= 'z') || ('A' <= C && C <= 'Z');
}
/// Checks whether character \p C is either a decimal digit or an uppercase or
/// lowercase letter as classified by "C" locale.
inline bool isAlnum(char C) { return isAlpha(C) || isDigit(C); }
/// Checks whether character \p C is valid ASCII (high bit is zero).
inline bool isASCII(char C) { return static_cast<unsigned char>(C) <= 127; }
/// Checks whether all characters in S are ASCII.
inline bool isASCII(llvm::StringRef S) {
for (char C : S)
if (LLVM_UNLIKELY(!isASCII(C)))
return false;
return true;
}
/// Checks whether character \p C is printable.
///
/// Locale-independent version of the C standard library isprint whose results
/// may differ on different platforms.
inline bool isPrint(char C) {
unsigned char UC = static_cast<unsigned char>(C);
return (0x20 <= UC) && (UC <= 0x7E);
}
/// Checks whether character \p C is whitespace in the "C" locale.
///
/// Locale-independent version of the C standard library isspace.
inline bool isSpace(char C) {
return C == ' ' || C == '\f' || C == '\n' || C == '\r' || C == '\t' ||
C == '\v';
}
/// Returns the corresponding lowercase character if \p x is uppercase.
inline char toLower(char x) {
if (x >= 'A' && x <= 'Z')
return x - 'A' + 'a';
return x;
}
/// Returns the corresponding uppercase character if \p x is lowercase.
inline char toUpper(char x) {
if (x >= 'a' && x <= 'z')
return x - 'a' + 'A';
return x;
}
inline std::string utohexstr(uint64_t X, bool LowerCase = false) {
char Buffer[17];
char *BufPtr = std::end(Buffer);
if (X == 0) *--BufPtr = '0';
while (X) {
unsigned char Mod = static_cast<unsigned char>(X) & 15;
*--BufPtr = hexdigit(Mod, LowerCase);
X >>= 4;
}
return std::string(BufPtr, std::end(Buffer));
}
/// Convert buffer \p Input to its hexadecimal representation.
/// The returned string is double the size of \p Input.
inline std::string toHex(StringRef Input, bool LowerCase = false) {
static const char *const LUT = "0123456789ABCDEF";
const uint8_t Offset = LowerCase ? 32 : 0;
size_t Length = Input.size();
std::string Output;
Output.reserve(2 * Length);
for (size_t i = 0; i < Length; ++i) {
const unsigned char c = Input[i];
Output.push_back(LUT[c >> 4] | Offset);
Output.push_back(LUT[c & 15] | Offset);
}
return Output;
}
inline std::string toHex(ArrayRef<uint8_t> Input, bool LowerCase = false) {
return toHex(toStringRef(Input), LowerCase);
}
/// Store the binary representation of the two provided values, \p MSB and
/// \p LSB, that make up the nibbles of a hexadecimal digit. If \p MSB or \p LSB
/// do not correspond to proper nibbles of a hexadecimal digit, this method
/// returns false. Otherwise, returns true.
inline bool tryGetHexFromNibbles(char MSB, char LSB, uint8_t &Hex) {
unsigned U1 = hexDigitValue(MSB);
unsigned U2 = hexDigitValue(LSB);
if (U1 == ~0U || U2 == ~0U)
return false;
Hex = static_cast<uint8_t>((U1 << 4) | U2);
return true;
}
/// Return the binary representation of the two provided values, \p MSB and
/// \p LSB, that make up the nibbles of a hexadecimal digit.
inline uint8_t hexFromNibbles(char MSB, char LSB) {
uint8_t Hex = 0;
bool GotHex = tryGetHexFromNibbles(MSB, LSB, Hex);
(void)GotHex;
assert(GotHex && "MSB and/or LSB do not correspond to hex digits");
return Hex;
}
/// Convert hexadecimal string \p Input to its binary representation and store
/// the result in \p Output. Returns true if the binary representation could be
/// converted from the hexadecimal string. Returns false if \p Input contains
/// non-hexadecimal digits. The output string is half the size of \p Input.
inline bool tryGetFromHex(StringRef Input, std::string &Output) {
if (Input.empty())
return true;
Output.reserve((Input.size() + 1) / 2);
if (Input.size() % 2 == 1) {
uint8_t Hex = 0;
if (!tryGetHexFromNibbles('0', Input.front(), Hex))
return false;
Output.push_back(Hex);
Input = Input.drop_front();
}
assert(Input.size() % 2 == 0);
while (!Input.empty()) {
uint8_t Hex = 0;
if (!tryGetHexFromNibbles(Input[0], Input[1], Hex))
return false;
Output.push_back(Hex);
Input = Input.drop_front(2);
}
return true;
}
/// Convert hexadecimal string \p Input to its binary representation.
/// The return string is half the size of \p Input.
inline std::string fromHex(StringRef Input) {
std::string Hex;
bool GotHex = tryGetFromHex(Input, Hex);
(void)GotHex;
assert(GotHex && "Input contains non hex digits");
return Hex;
}
inline std::string utostr(uint64_t X, bool isNeg = false) {
char Buffer[21];
char *BufPtr = std::end(Buffer);
if (X == 0) *--BufPtr = '0'; // Handle special case...
while (X) {
*--BufPtr = '0' + char(X % 10);
X /= 10;
}
if (isNeg) *--BufPtr = '-'; // Add negative sign...
return std::string(BufPtr, std::end(Buffer));
}
inline std::string itostr(int64_t X) {
if (X < 0)
return utostr(static_cast<uint64_t>(1) + ~static_cast<uint64_t>(X), true);
else
return utostr(static_cast<uint64_t>(X));
}
/// Returns the English suffix for an ordinal integer (-st, -nd, -rd, -th).
inline StringRef getOrdinalSuffix(unsigned Val) {
// It is critically important that we do this perfectly for
// user-written sequences with over 100 elements.
switch (Val % 100) {
case 11:
case 12:
case 13:
return "th";
default:
switch (Val % 10) {
case 1: return "st";
case 2: return "nd";
case 3: return "rd";
default: return "th";
}
}
}
namespace detail {
template <typename IteratorT>
inline std::string join_impl(IteratorT Begin, IteratorT End,
StringRef Separator, std::input_iterator_tag) {
std::string S;
if (Begin == End)
return S;
S += (*Begin);
while (++Begin != End) {
S += Separator;
S += (*Begin);
}
return S;
}
template <typename IteratorT>
inline std::string join_impl(IteratorT Begin, IteratorT End,
StringRef Separator, std::forward_iterator_tag) {
std::string S;
if (Begin == End)
return S;
size_t Len = (std::distance(Begin, End) - 1) * Separator.size();
for (IteratorT I = Begin; I != End; ++I)
Len += (*I).size();
S.reserve(Len);
size_t PrevCapacity = S.capacity();
(void)PrevCapacity;
S += (*Begin);
while (++Begin != End) {
S += Separator;
S += (*Begin);
}
assert(PrevCapacity == S.capacity() && "String grew during building");
return S;
}
template <typename Sep>
inline void join_items_impl(std::string &Result, Sep Separator) {}
template <typename Sep, typename Arg>
inline void join_items_impl(std::string &Result, Sep Separator,
const Arg &Item) {
Result += Item;
}
template <typename Sep, typename Arg1, typename... Args>
inline void join_items_impl(std::string &Result, Sep Separator, const Arg1 &A1,
Args &&... Items) {
Result += A1;
Result += Separator;
join_items_impl(Result, Separator, std::forward<Args>(Items)...);
}
inline size_t join_one_item_size(char) { return 1; }
inline size_t join_one_item_size(const char *S) { return S ? ::strlen(S) : 0; }
template <typename T> inline size_t join_one_item_size(const T &Str) {
return Str.size();
}
inline size_t join_items_size() { return 0; }
template <typename A1> inline size_t join_items_size(const A1 &A) {
return join_one_item_size(A);
}
template <typename A1, typename... Args>
inline size_t join_items_size(const A1 &A, Args &&... Items) {
return join_one_item_size(A) + join_items_size(std::forward<Args>(Items)...);
}
} // end namespace detail
/// Joins the strings in the range [Begin, End), adding Separator between
/// the elements.
template <typename IteratorT>
inline std::string join(IteratorT Begin, IteratorT End, StringRef Separator) {
using tag = typename std::iterator_traits<IteratorT>::iterator_category;
return detail::join_impl(Begin, End, Separator, tag());
}
/// Joins the strings in the range [R.begin(), R.end()), adding Separator
/// between the elements.
template <typename Range>
inline std::string join(Range &&R, StringRef Separator) {
return join(R.begin(), R.end(), Separator);
}
/// Joins the strings in the parameter pack \p Items, adding \p Separator
/// between the elements. All arguments must be implicitly convertible to
/// std::string, or there should be an overload of std::string::operator+=()
/// that accepts the argument explicitly.
template <typename Sep, typename... Args>
inline std::string join_items(Sep Separator, Args &&... Items) {
std::string Result;
if (sizeof...(Items) == 0)
return Result;
size_t NS = detail::join_one_item_size(Separator);
size_t NI = detail::join_items_size(std::forward<Args>(Items)...);
Result.reserve(NI + (sizeof...(Items) - 1) * NS + 1);
detail::join_items_impl(Result, Separator, std::forward<Args>(Items)...);
return Result;
}
/// A helper class to return the specified delimiter string after the first
/// invocation of operator StringRef(). Used to generate a comma-separated
/// list from a loop like so:
///
/// \code
/// ListSeparator LS;
/// for (auto &I : C)
/// OS << LS << I.getName();
/// \end
class ListSeparator {
bool First = true;
StringRef Separator;
public:
ListSeparator(StringRef Separator = ", ") : Separator(Separator) {}
operator StringRef() {
if (First) {
First = false;
return {};
}
return Separator;
}
};
} // end namespace llvm
}} // namespace swift::runtime
#endif // LLVM_ADT_STRINGEXTRAS_H
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