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//===--- Builtins.cpp - Builtin function implementation -------------------===//
//
// 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 implements various things for builtin functions.
//
//===----------------------------------------------------------------------===//
#include "clang/Basic/Builtins.h"
#include "BuiltinTargetFeatures.h"
#include "clang/Basic/IdentifierTable.h"
#include "clang/Basic/LangOptions.h"
#include "clang/Basic/TargetInfo.h"
#include "llvm/ADT/StringRef.h"
using namespace clang;
const char *HeaderDesc::getName() const {
switch (ID) {
#define HEADER(ID, NAME) \
case ID: \
return NAME;
#include "clang/Basic/BuiltinHeaders.def"
#undef HEADER
};
llvm_unreachable("Unknown HeaderDesc::HeaderID enum");
}
static constexpr unsigned NumBuiltins = Builtin::FirstTSBuiltin;
#define GET_BUILTIN_STR_TABLE
#include "clang/Basic/Builtins.inc"
#undef GET_BUILTIN_STR_TABLE
static constexpr Builtin::Info BuiltinInfos[] = {
Builtin::Info{}, // No-builtin info entry.
#define GET_BUILTIN_INFOS
#include "clang/Basic/Builtins.inc"
#undef GET_BUILTIN_INFOS
};
static_assert(std::size(BuiltinInfos) == NumBuiltins);
std::pair<const Builtin::InfosShard &, const Builtin::Info &>
Builtin::Context::getShardAndInfo(unsigned ID) const {
assert((ID < (Builtin::FirstTSBuiltin + NumTargetBuiltins +
NumAuxTargetBuiltins)) &&
"Invalid builtin ID!");
ArrayRef<InfosShard> Shards = BuiltinShards;
if (isAuxBuiltinID(ID)) {
Shards = AuxTargetShards;
ID = getAuxBuiltinID(ID) - Builtin::FirstTSBuiltin;
} else if (ID >= Builtin::FirstTSBuiltin) {
Shards = TargetShards;
ID -= Builtin::FirstTSBuiltin;
}
// Loop over the shards to find the one matching this ID. We don't expect to
// have many shards and so its better to search linearly than with a binary
// search.
for (const auto &Shard : Shards) {
if (ID < Shard.Infos.size()) {
return {Shard, Shard.Infos[ID]};
}
ID -= Shard.Infos.size();
}
llvm_unreachable("Invalid target builtin shard structure!");
}
std::string Builtin::Info::getName(const Builtin::InfosShard &Shard) const {
return (Twine(Shard.NamePrefix) + (*Shard.Strings)[Offsets.Name]).str();
}
/// Return the identifier name for the specified builtin,
/// e.g. "__builtin_abs".
std::string Builtin::Context::getName(unsigned ID) const {
const auto &[Shard, I] = getShardAndInfo(ID);
return I.getName(Shard);
}
std::string Builtin::Context::getQuotedName(unsigned ID) const {
const auto &[Shard, I] = getShardAndInfo(ID);
return (Twine("'") + Shard.NamePrefix + (*Shard.Strings)[I.Offsets.Name] +
"'")
.str();
}
const char *Builtin::Context::getTypeString(unsigned ID) const {
const auto &[Shard, I] = getShardAndInfo(ID);
return (*Shard.Strings)[I.Offsets.Type].data();
}
const char *Builtin::Context::getAttributesString(unsigned ID) const {
const auto &[Shard, I] = getShardAndInfo(ID);
return (*Shard.Strings)[I.Offsets.Attributes].data();
}
const char *Builtin::Context::getRequiredFeatures(unsigned ID) const {
const auto &[Shard, I] = getShardAndInfo(ID);
return (*Shard.Strings)[I.Offsets.Features].data();
}
Builtin::Context::Context() : BuiltinShards{{&BuiltinStrings, BuiltinInfos}} {}
void Builtin::Context::InitializeTarget(const TargetInfo &Target,
const TargetInfo *AuxTarget) {
assert(TargetShards.empty() && "Already initialized target?");
assert(NumTargetBuiltins == 0 && "Already initialized target?");
TargetShards = Target.getTargetBuiltins();
for (const auto &Shard : TargetShards)
NumTargetBuiltins += Shard.Infos.size();
if (AuxTarget) {
AuxTargetShards = AuxTarget->getTargetBuiltins();
for (const auto &Shard : AuxTargetShards)
NumAuxTargetBuiltins += Shard.Infos.size();
}
}
bool Builtin::Context::isBuiltinFunc(llvm::StringRef FuncName) {
bool InStdNamespace = FuncName.consume_front("std-");
for (const auto &Shard : {InfosShard{&BuiltinStrings, BuiltinInfos}})
if (llvm::StringRef FuncNameSuffix = FuncName;
FuncNameSuffix.consume_front(Shard.NamePrefix))
for (const auto &I : Shard.Infos)
if (FuncNameSuffix == (*Shard.Strings)[I.Offsets.Name] &&
(bool)strchr((*Shard.Strings)[I.Offsets.Attributes].data(), 'z') ==
InStdNamespace)
return strchr((*Shard.Strings)[I.Offsets.Attributes].data(), 'f') !=
nullptr;
return false;
}
/// Is this builtin supported according to the given language options?
static bool builtinIsSupported(const llvm::StringTable &Strings,
const Builtin::Info &BuiltinInfo,
const LangOptions &LangOpts) {
auto AttributesStr = Strings[BuiltinInfo.Offsets.Attributes];
/* Builtins Unsupported */
if (LangOpts.NoBuiltin && strchr(AttributesStr.data(), 'f') != nullptr)
return false;
/* CorBuiltins Unsupported */
if (!LangOpts.Coroutines && (BuiltinInfo.Langs & COR_LANG))
return false;
/* MathBuiltins Unsupported */
if (LangOpts.NoMathBuiltin && BuiltinInfo.Header.ID == HeaderDesc::MATH_H)
return false;
/* GnuMode Unsupported */
if (!LangOpts.GNUMode && (BuiltinInfo.Langs & GNU_LANG))
return false;
/* MSMode Unsupported */
if (!LangOpts.MicrosoftExt && (BuiltinInfo.Langs & MS_LANG))
return false;
/* HLSLMode Unsupported */
if (!LangOpts.HLSL && (BuiltinInfo.Langs & HLSL_LANG))
return false;
/* ObjC Unsupported */
if (!LangOpts.ObjC && BuiltinInfo.Langs == OBJC_LANG)
return false;
/* OpenCLC Unsupported */
if (!LangOpts.OpenCL && (BuiltinInfo.Langs & ALL_OCL_LANGUAGES))
return false;
/* OopenCL GAS Unsupported */
if (!LangOpts.OpenCLGenericAddressSpace && (BuiltinInfo.Langs & OCL_GAS))
return false;
/* OpenCL Pipe Unsupported */
if (!LangOpts.OpenCLPipes && (BuiltinInfo.Langs & OCL_PIPE))
return false;
// Device side enqueue is not supported until OpenCL 2.0. In 2.0 and higher
// support is indicated with language option for blocks.
/* OpenCL DSE Unsupported */
if ((LangOpts.getOpenCLCompatibleVersion() < 200 || !LangOpts.Blocks) &&
(BuiltinInfo.Langs & OCL_DSE))
return false;
/* OpenMP Unsupported */
if (!LangOpts.OpenMP && BuiltinInfo.Langs == OMP_LANG)
return false;
/* CUDA Unsupported */
if (!LangOpts.CUDA && BuiltinInfo.Langs == CUDA_LANG)
return false;
/* CPlusPlus Unsupported */
if (!LangOpts.CPlusPlus && BuiltinInfo.Langs == CXX_LANG)
return false;
/* consteval Unsupported */
if (!LangOpts.CPlusPlus20 && strchr(AttributesStr.data(), 'G') != nullptr)
return false;
/* C23 unsupported */
if (!LangOpts.C23 && BuiltinInfo.Langs == C23_LANG)
return false;
return true;
}
/// initializeBuiltins - Mark the identifiers for all the builtins with their
/// appropriate builtin ID # and mark any non-portable builtin identifiers as
/// such.
void Builtin::Context::initializeBuiltins(IdentifierTable &Table,
const LangOptions &LangOpts) {
{
unsigned ID = 0;
// Step #1: mark all target-independent builtins with their ID's.
for (const auto &Shard : BuiltinShards)
for (const auto &I : Shard.Infos) {
// If this is a real builtin (ID != 0) and is supported, add it.
if (ID != 0 && builtinIsSupported(*Shard.Strings, I, LangOpts))
Table.get(I.getName(Shard)).setBuiltinID(ID);
++ID;
}
assert(ID == FirstTSBuiltin && "Should have added all non-target IDs!");
// Step #2: Register target-specific builtins.
for (const auto &Shard : TargetShards)
for (const auto &I : Shard.Infos) {
if (builtinIsSupported(*Shard.Strings, I, LangOpts))
Table.get(I.getName(Shard)).setBuiltinID(ID);
++ID;
}
// Step #3: Register target-specific builtins for AuxTarget.
for (const auto &Shard : AuxTargetShards)
for (const auto &I : Shard.Infos) {
Table.get(I.getName(Shard)).setBuiltinID(ID);
++ID;
}
}
// Step #4: Unregister any builtins specified by -fno-builtin-foo.
for (llvm::StringRef Name : LangOpts.NoBuiltinFuncs) {
bool InStdNamespace = Name.consume_front("std-");
auto NameIt = Table.find(Name);
if (NameIt != Table.end()) {
unsigned ID = NameIt->second->getBuiltinID();
if (ID != Builtin::NotBuiltin && isPredefinedLibFunction(ID) &&
isInStdNamespace(ID) == InStdNamespace) {
NameIt->second->clearBuiltinID();
}
}
}
}
unsigned Builtin::Context::getRequiredVectorWidth(unsigned ID) const {
const char *WidthPos = ::strchr(getAttributesString(ID), 'V');
if (!WidthPos)
return 0;
++WidthPos;
assert(*WidthPos == ':' &&
"Vector width specifier must be followed by a ':'");
++WidthPos;
char *EndPos;
unsigned Width = ::strtol(WidthPos, &EndPos, 10);
assert(*EndPos == ':' && "Vector width specific must end with a ':'");
return Width;
}
bool Builtin::Context::isLike(unsigned ID, unsigned &FormatIdx,
bool &HasVAListArg, const char *Fmt) const {
assert(Fmt && "Not passed a format string");
assert(::strlen(Fmt) == 2 &&
"Format string needs to be two characters long");
assert(::toupper(Fmt[0]) == Fmt[1] &&
"Format string is not in the form \"xX\"");
const char *Like = ::strpbrk(getAttributesString(ID), Fmt);
if (!Like)
return false;
HasVAListArg = (*Like == Fmt[1]);
++Like;
assert(*Like == ':' && "Format specifier must be followed by a ':'");
++Like;
assert(::strchr(Like, ':') && "Format specifier must end with a ':'");
FormatIdx = ::strtol(Like, nullptr, 10);
return true;
}
bool Builtin::Context::isPrintfLike(unsigned ID, unsigned &FormatIdx,
bool &HasVAListArg) {
return isLike(ID, FormatIdx, HasVAListArg, "pP");
}
bool Builtin::Context::isScanfLike(unsigned ID, unsigned &FormatIdx,
bool &HasVAListArg) {
return isLike(ID, FormatIdx, HasVAListArg, "sS");
}
bool Builtin::Context::performsCallback(unsigned ID,
SmallVectorImpl<int> &Encoding) const {
const char *CalleePos = ::strchr(getAttributesString(ID), 'C');
if (!CalleePos)
return false;
++CalleePos;
assert(*CalleePos == '<' &&
"Callback callee specifier must be followed by a '<'");
++CalleePos;
char *EndPos;
int CalleeIdx = ::strtol(CalleePos, &EndPos, 10);
assert(CalleeIdx >= 0 && "Callee index is supposed to be positive!");
Encoding.push_back(CalleeIdx);
while (*EndPos == ',') {
const char *PayloadPos = EndPos + 1;
int PayloadIdx = ::strtol(PayloadPos, &EndPos, 10);
Encoding.push_back(PayloadIdx);
}
assert(*EndPos == '>' && "Callback callee specifier must end with a '>'");
return true;
}
bool Builtin::Context::canBeRedeclared(unsigned ID) const {
return ID == Builtin::NotBuiltin || ID == Builtin::BI__va_start ||
ID == Builtin::BI__builtin_assume_aligned ||
(!hasReferenceArgsOrResult(ID) && !hasCustomTypechecking(ID)) ||
isInStdNamespace(ID);
}
bool Builtin::evaluateRequiredTargetFeatures(
StringRef RequiredFeatures, const llvm::StringMap<bool> &TargetFetureMap) {
// Return true if the builtin doesn't have any required features.
if (RequiredFeatures.empty())
return true;
assert(!RequiredFeatures.contains(' ') && "Space in feature list");
TargetFeatures TF(TargetFetureMap);
return TF.hasRequiredFeatures(RequiredFeatures);
}
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