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be2df95e9281985b61270bb6420ea0eeeffbbe59
clang-p2996/clang/lib/Basic/Targets/WebAssembly.cpp
Chandler Carruth be2df95e92 Switch builtin strings to use string tables (#118734) 
The Clang binary (and any binary linking Clang as a library), when built
using PIE, ends up with a pretty shocking number of dynamic relocations
to apply to the executable image: roughly 400k.

Each of these takes up binary space in the executable, and perhaps most
interestingly takes start-up time to apply the relocations.

The largest pattern I identified were the strings used to describe
target builtins. The addresses of these string literals were stored into
huge arrays, each one requiring a dynamic relocation. The way to avoid
this is to design the target builtins to use a single large table of
strings and offsets within the table for the individual strings. This
switches the builtin management to such a scheme.

This saves over 100k dynamic relocations by my measurement, an over 25%
reduction. Just looking at byte size improvements, using the `bloaty`
tool to compare a newly built `clang` binary to an old one:

```
    FILE SIZE        VM SIZE
 --------------  --------------
  +1.4%  +653Ki  +1.4%  +653Ki    .rodata
  +0.0%    +960  +0.0%    +960    .text
  +0.0%    +197  +0.0%    +197    .dynstr
  +0.0%    +184  +0.0%    +184    .eh_frame
  +0.0%     +96  +0.0%     +96    .dynsym
  +0.0%     +40  +0.0%     +40    .eh_frame_hdr
  +114%     +32  [ = ]       0    [Unmapped]
  +0.0%     +20  +0.0%     +20    .gnu.hash
  +0.0%      +8  +0.0%      +8    .gnu.version
  +0.9%      +7  +0.9%      +7    [LOAD #2 [R]]
  [ = ]       0 -75.4% -3.00Ki    .relro_padding
 -16.1%  -802Ki -16.1%  -802Ki    .data.rel.ro
 -27.3% -2.52Mi -27.3% -2.52Mi    .rela.dyn
  -1.6% -2.66Mi  -1.6% -2.66Mi    TOTAL
```

We get a 16% reduction in the `.data.rel.ro` section, and nearly 30%
reduction in `.rela.dyn` where those reloctaions are stored.

This is also visible in my benchmarking of binary start-up overhead at
least:

```
Benchmark 1: ./old_clang --version
  Time (mean ± σ):      17.6 ms ±   1.5 ms    [User: 4.1 ms, System: 13.3 ms]
  Range (min … max):    14.2 ms …  22.8 ms    162 runs

Benchmark 2: ./new_clang --version
  Time (mean ± σ):      15.5 ms ±   1.4 ms    [User: 3.6 ms, System: 11.8 ms]
  Range (min … max):    12.4 ms …  20.3 ms    216 runs

Summary
  './new_clang --version' ran
    1.13 ± 0.14 times faster than './old_clang --version'
```

We get about 2ms faster `--version` runs. While there is a lot of noise
in binary execution time, this delta is pretty consistent, and
represents over 10% improvement. This is particularly interesting to me
because for very short source files, repeatedly starting the `clang`
binary is actually the dominant cost. For example, `configure` scripts
running against the `clang` compiler are slow in large part because of
binary start up time, not the time to process the actual inputs to the
compiler.

----

This PR implements the string tables using `constexpr` code and the
existing macro system. I understand that the builtins are moving towards
a TableGen model, and if complete that would provide more options for
modeling this. Unfortunately, that migration isn't complete, and even
the parts that are migrated still rely on the ability to break out of
the TableGen model and directly expand an X-macro style `BUILTIN(...)`
textually. I looked at trying to complete the move to TableGen, but it
would both require the difficult migration of the remaining targets, and
solving some tricky problems with how to move away from any macro-based
expansion.

I was also able to find a reasonably clean and effective way of doing
this with the existing macros and some `constexpr` code that I think is
clean enough to be a pretty good intermediate state, and maybe give a
good target for the eventual TableGen solution. I was also able to
factor the macros into set of consistent patterns that avoids a
significant regression in overall boilerplate.
2024-12-08 19:00:14 -08:00

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//===--- WebAssembly.cpp - Implement WebAssembly target feature support ---===//
//
// 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 WebAssembly TargetInfo objects.
//
//===----------------------------------------------------------------------===//
#include "WebAssembly.h"
#include "Targets.h"
#include "clang/Basic/Builtins.h"
#include "clang/Basic/Diagnostic.h"
#include "clang/Basic/TargetBuiltins.h"
#include "llvm/ADT/StringSwitch.h"
using namespace clang;
using namespace clang::targets;
static constexpr int NumBuiltins =
clang::WebAssembly::LastTSBuiltin - Builtin::FirstTSBuiltin;
static constexpr auto BuiltinStorage = Builtin::Storage<NumBuiltins>::Make(
#define BUILTIN CLANG_BUILTIN_STR_TABLE
#define TARGET_BUILTIN CLANG_TARGET_BUILTIN_STR_TABLE
#include "clang/Basic/BuiltinsWebAssembly.def"
, {
#define BUILTIN CLANG_BUILTIN_ENTRY
#define TARGET_BUILTIN CLANG_TARGET_BUILTIN_ENTRY
#define LIBBUILTIN CLANG_LIBBUILTIN_ENTRY
#include "clang/Basic/BuiltinsWebAssembly.def"
});
static constexpr llvm::StringLiteral ValidCPUNames[] = {
{"mvp"}, {"bleeding-edge"}, {"generic"}, {"lime"}};
StringRef WebAssemblyTargetInfo::getABI() const { return ABI; }
bool WebAssemblyTargetInfo::setABI(const std::string &Name) {
if (Name != "mvp" && Name != "experimental-mv")
return false;
ABI = Name;
return true;
}
bool WebAssemblyTargetInfo::hasFeature(StringRef Feature) const {
return llvm::StringSwitch<bool>(Feature)
.Case("atomics", HasAtomics)
.Case("bulk-memory", HasBulkMemory)
.Case("bulk-memory-opt", HasBulkMemoryOpt)
.Case("call-indirect-overlong", HasCallIndirectOverlong)
.Case("exception-handling", HasExceptionHandling)
.Case("extended-const", HasExtendedConst)
.Case("fp16", HasFP16)
.Case("multimemory", HasMultiMemory)
.Case("multivalue", HasMultivalue)
.Case("mutable-globals", HasMutableGlobals)
.Case("nontrapping-fptoint", HasNontrappingFPToInt)
.Case("reference-types", HasReferenceTypes)
.Case("relaxed-simd", SIMDLevel >= RelaxedSIMD)
.Case("sign-ext", HasSignExt)
.Case("simd128", SIMDLevel >= SIMD128)
.Case("tail-call", HasTailCall)
.Case("wide-arithmetic", HasWideArithmetic)
.Default(false);
}
bool WebAssemblyTargetInfo::isValidCPUName(StringRef Name) const {
return llvm::is_contained(ValidCPUNames, Name);
}
void WebAssemblyTargetInfo::fillValidCPUList(
SmallVectorImpl<StringRef> &Values) const {
Values.append(std::begin(ValidCPUNames), std::end(ValidCPUNames));
}
void WebAssemblyTargetInfo::getTargetDefines(const LangOptions &Opts,
MacroBuilder &Builder) const {
defineCPUMacros(Builder, "wasm", /*Tuning=*/false);
if (HasAtomics)
Builder.defineMacro("__wasm_atomics__");
if (HasBulkMemory)
Builder.defineMacro("__wasm_bulk_memory__");
if (HasBulkMemoryOpt)
Builder.defineMacro("__wasm_bulk_memory_opt__");
if (HasExceptionHandling)
Builder.defineMacro("__wasm_exception_handling__");
if (HasExtendedConst)
Builder.defineMacro("__wasm_extended_const__");
if (HasMultiMemory)
Builder.defineMacro("__wasm_multimemory__");
if (HasFP16)
Builder.defineMacro("__wasm_fp16__");
if (HasMultivalue)
Builder.defineMacro("__wasm_multivalue__");
if (HasMutableGlobals)
Builder.defineMacro("__wasm_mutable_globals__");
if (HasNontrappingFPToInt)
Builder.defineMacro("__wasm_nontrapping_fptoint__");
if (HasReferenceTypes)
Builder.defineMacro("__wasm_reference_types__");
if (SIMDLevel >= RelaxedSIMD)
Builder.defineMacro("__wasm_relaxed_simd__");
if (HasSignExt)
Builder.defineMacro("__wasm_sign_ext__");
if (SIMDLevel >= SIMD128)
Builder.defineMacro("__wasm_simd128__");
if (HasTailCall)
Builder.defineMacro("__wasm_tail_call__");
if (HasWideArithmetic)
Builder.defineMacro("__wasm_wide_arithmetic__");
Builder.defineMacro("__GCC_HAVE_SYNC_COMPARE_AND_SWAP_1");
Builder.defineMacro("__GCC_HAVE_SYNC_COMPARE_AND_SWAP_2");
Builder.defineMacro("__GCC_HAVE_SYNC_COMPARE_AND_SWAP_4");
Builder.defineMacro("__GCC_HAVE_SYNC_COMPARE_AND_SWAP_8");
}
void WebAssemblyTargetInfo::setSIMDLevel(llvm::StringMap<bool> &Features,
SIMDEnum Level, bool Enabled) {
if (Enabled) {
switch (Level) {
case RelaxedSIMD:
Features["relaxed-simd"] = true;
[[fallthrough]];
case SIMD128:
Features["simd128"] = true;
[[fallthrough]];
case NoSIMD:
break;
}
return;
}
switch (Level) {
case NoSIMD:
case SIMD128:
Features["simd128"] = false;
[[fallthrough]];
case RelaxedSIMD:
Features["relaxed-simd"] = false;
break;
}
}
void WebAssemblyTargetInfo::setFeatureEnabled(llvm::StringMap<bool> &Features,
StringRef Name,
bool Enabled) const {
if (Name == "simd128")
setSIMDLevel(Features, SIMD128, Enabled);
else if (Name == "relaxed-simd")
setSIMDLevel(Features, RelaxedSIMD, Enabled);
else
Features[Name] = Enabled;
}
bool WebAssemblyTargetInfo::initFeatureMap(
llvm::StringMap<bool> &Features, DiagnosticsEngine &Diags, StringRef CPU,
const std::vector<std::string> &FeaturesVec) const {
auto addGenericFeatures = [&]() {
Features["bulk-memory"] = true;
Features["bulk-memory-opt"] = true;
Features["call-indirect-overlong"] = true;
Features["multivalue"] = true;
Features["mutable-globals"] = true;
Features["nontrapping-fptoint"] = true;
Features["reference-types"] = true;
Features["sign-ext"] = true;
};
auto addLime1Features = [&]() {
// Lime1:
// <https://github.com/WebAssembly/tool-conventions/blob/main/Lime.md#lime1>
Features["bulk-memory-opt"] = true;
Features["call-indirect-overlong"] = true;
Features["extended-const"] = true;
Features["multivalue"] = true;
Features["mutable-globals"] = true;
Features["nontrapping-fptoint"] = true;
Features["sign-ext"] = true;
};
auto addBleedingEdgeFeatures = [&]() {
addGenericFeatures();
Features["atomics"] = true;
Features["exception-handling"] = true;
Features["extended-const"] = true;
Features["fp16"] = true;
Features["multimemory"] = true;
Features["tail-call"] = true;
Features["wide-arithmetic"] = true;
setSIMDLevel(Features, RelaxedSIMD, true);
};
if (CPU == "generic") {
addGenericFeatures();
} else if (CPU == "lime1") {
addLime1Features();
} else if (CPU == "bleeding-edge") {
addBleedingEdgeFeatures();
}
return TargetInfo::initFeatureMap(Features, Diags, CPU, FeaturesVec);
}
bool WebAssemblyTargetInfo::handleTargetFeatures(
std::vector<std::string> &Features, DiagnosticsEngine &Diags) {
for (const auto &Feature : Features) {
if (Feature == "+atomics") {
HasAtomics = true;
continue;
}
if (Feature == "-atomics") {
HasAtomics = false;
continue;
}
if (Feature == "+bulk-memory") {
HasBulkMemory = true;
continue;
}
if (Feature == "-bulk-memory") {
HasBulkMemory = false;
continue;
}
if (Feature == "+bulk-memory-opt") {
HasBulkMemoryOpt = true;
continue;
}
if (Feature == "-bulk-memory-opt") {
HasBulkMemoryOpt = false;
continue;
}
if (Feature == "+call-indirect-overlong") {
HasCallIndirectOverlong = true;
continue;
}
if (Feature == "-call-indirect-overlong") {
HasCallIndirectOverlong = false;
continue;
}
if (Feature == "+exception-handling") {
HasExceptionHandling = true;
continue;
}
if (Feature == "-exception-handling") {
HasExceptionHandling = false;
continue;
}
if (Feature == "+extended-const") {
HasExtendedConst = true;
continue;
}
if (Feature == "-extended-const") {
HasExtendedConst = false;
continue;
}
if (Feature == "+fp16") {
SIMDLevel = std::max(SIMDLevel, SIMD128);
HasFP16 = true;
continue;
}
if (Feature == "-fp16") {
HasFP16 = false;
continue;
}
if (Feature == "+multimemory") {
HasMultiMemory = true;
continue;
}
if (Feature == "-multimemory") {
HasMultiMemory = false;
continue;
}
if (Feature == "+multivalue") {
HasMultivalue = true;
continue;
}
if (Feature == "-multivalue") {
HasMultivalue = false;
continue;
}
if (Feature == "+mutable-globals") {
HasMutableGlobals = true;
continue;
}
if (Feature == "-mutable-globals") {
HasMutableGlobals = false;
continue;
}
if (Feature == "+nontrapping-fptoint") {
HasNontrappingFPToInt = true;
continue;
}
if (Feature == "-nontrapping-fptoint") {
HasNontrappingFPToInt = false;
continue;
}
if (Feature == "+reference-types") {
HasReferenceTypes = true;
continue;
}
if (Feature == "-reference-types") {
HasReferenceTypes = false;
continue;
}
if (Feature == "+relaxed-simd") {
SIMDLevel = std::max(SIMDLevel, RelaxedSIMD);
continue;
}
if (Feature == "-relaxed-simd") {
SIMDLevel = std::min(SIMDLevel, SIMDEnum(RelaxedSIMD - 1));
continue;
}
if (Feature == "+sign-ext") {
HasSignExt = true;
continue;
}
if (Feature == "-sign-ext") {
HasSignExt = false;
continue;
}
if (Feature == "+simd128") {
SIMDLevel = std::max(SIMDLevel, SIMD128);
continue;
}
if (Feature == "-simd128") {
SIMDLevel = std::min(SIMDLevel, SIMDEnum(SIMD128 - 1));
continue;
}
if (Feature == "+tail-call") {
HasTailCall = true;
continue;
}
if (Feature == "-tail-call") {
HasTailCall = false;
continue;
}
if (Feature == "+wide-arithmetic") {
HasWideArithmetic = true;
continue;
}
if (Feature == "-wide-arithmetic") {
HasWideArithmetic = false;
continue;
}
Diags.Report(diag::err_opt_not_valid_with_opt)
<< Feature << "-target-feature";
return false;
}
// bulk-memory-opt is a subset of bulk-memory.
if (HasBulkMemory) {
HasBulkMemoryOpt = true;
}
// The reference-types feature included the change to `call_indirect`
// encodings to support overlong immediates.
if (HasReferenceTypes) {
HasCallIndirectOverlong = true;
}
return true;
}
std::pair<const char *, ArrayRef<Builtin::Info>>
WebAssemblyTargetInfo::getTargetBuiltinStorage() const {
return {BuiltinStorage.StringTable, BuiltinStorage.Infos};
}
void WebAssemblyTargetInfo::adjust(DiagnosticsEngine &Diags,
LangOptions &Opts) {
TargetInfo::adjust(Diags, Opts);
// Turn off POSIXThreads and ThreadModel so that we don't predefine _REENTRANT
// or __STDCPP_THREADS__ if we will eventually end up stripping atomics
// because they are unsupported.
if (!HasAtomics || !HasBulkMemory) {
Opts.POSIXThreads = false;
Opts.setThreadModel(LangOptions::ThreadModelKind::Single);
Opts.ThreadsafeStatics = false;
}
}
void WebAssembly32TargetInfo::getTargetDefines(const LangOptions &Opts,
MacroBuilder &Builder) const {
WebAssemblyTargetInfo::getTargetDefines(Opts, Builder);
defineCPUMacros(Builder, "wasm32", /*Tuning=*/false);
}
void WebAssembly64TargetInfo::getTargetDefines(const LangOptions &Opts,
MacroBuilder &Builder) const {
WebAssemblyTargetInfo::getTargetDefines(Opts, Builder);
defineCPUMacros(Builder, "wasm64", /*Tuning=*/false);
}
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