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//===------ SemaAMDGPU.cpp ------- AMDGPU target-specific routines --------===//
//
// 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 semantic analysis functions specific to AMDGPU.
//
//===----------------------------------------------------------------------===//
#include "clang/Sema/SemaAMDGPU.h"
#include "clang/Basic/DiagnosticSema.h"
#include "clang/Basic/TargetBuiltins.h"
#include "clang/Sema/Ownership.h"
#include "clang/Sema/Sema.h"
#include "llvm/Support/AtomicOrdering.h"
#include <cstdint>
namespace clang {
SemaAMDGPU::SemaAMDGPU(Sema &S) : SemaBase(S) {}
bool SemaAMDGPU::CheckAMDGCNBuiltinFunctionCall(unsigned BuiltinID,
CallExpr *TheCall) {
// position of memory order and scope arguments in the builtin
unsigned OrderIndex, ScopeIndex;
switch (BuiltinID) {
case AMDGPU::BI__builtin_amdgcn_global_load_lds: {
constexpr const int SizeIdx = 2;
llvm::APSInt Size;
Expr *ArgExpr = TheCall->getArg(SizeIdx);
[[maybe_unused]] ExprResult R =
SemaRef.VerifyIntegerConstantExpression(ArgExpr, &Size);
assert(!R.isInvalid());
switch (Size.getSExtValue()) {
case 1:
case 2:
case 4:
return false;
default:
Diag(ArgExpr->getExprLoc(),
diag::err_amdgcn_global_load_lds_size_invalid_value)
<< ArgExpr->getSourceRange();
Diag(ArgExpr->getExprLoc(),
diag::note_amdgcn_global_load_lds_size_valid_value)
<< ArgExpr->getSourceRange();
return true;
}
}
case AMDGPU::BI__builtin_amdgcn_get_fpenv:
case AMDGPU::BI__builtin_amdgcn_set_fpenv:
return false;
case AMDGPU::BI__builtin_amdgcn_atomic_inc32:
case AMDGPU::BI__builtin_amdgcn_atomic_inc64:
case AMDGPU::BI__builtin_amdgcn_atomic_dec32:
case AMDGPU::BI__builtin_amdgcn_atomic_dec64:
OrderIndex = 2;
ScopeIndex = 3;
break;
case AMDGPU::BI__builtin_amdgcn_fence:
OrderIndex = 0;
ScopeIndex = 1;
break;
default:
return false;
}
ExprResult Arg = TheCall->getArg(OrderIndex);
auto ArgExpr = Arg.get();
Expr::EvalResult ArgResult;
if (!ArgExpr->EvaluateAsInt(ArgResult, getASTContext()))
return Diag(ArgExpr->getExprLoc(), diag::err_typecheck_expect_int)
<< ArgExpr->getType();
auto Ord = ArgResult.Val.getInt().getZExtValue();
// Check validity of memory ordering as per C11 / C++11's memody model.
// Only fence needs check. Atomic dec/inc allow all memory orders.
if (!llvm::isValidAtomicOrderingCABI(Ord))
return Diag(ArgExpr->getBeginLoc(),
diag::warn_atomic_op_has_invalid_memory_order)
<< 0 << ArgExpr->getSourceRange();
switch (static_cast<llvm::AtomicOrderingCABI>(Ord)) {
case llvm::AtomicOrderingCABI::relaxed:
case llvm::AtomicOrderingCABI::consume:
if (BuiltinID == AMDGPU::BI__builtin_amdgcn_fence)
return Diag(ArgExpr->getBeginLoc(),
diag::warn_atomic_op_has_invalid_memory_order)
<< 0 << ArgExpr->getSourceRange();
break;
case llvm::AtomicOrderingCABI::acquire:
case llvm::AtomicOrderingCABI::release:
case llvm::AtomicOrderingCABI::acq_rel:
case llvm::AtomicOrderingCABI::seq_cst:
break;
}
Arg = TheCall->getArg(ScopeIndex);
ArgExpr = Arg.get();
Expr::EvalResult ArgResult1;
// Check that sync scope is a constant literal
if (!ArgExpr->EvaluateAsConstantExpr(ArgResult1, getASTContext()))
return Diag(ArgExpr->getExprLoc(), diag::err_expr_not_string_literal)
<< ArgExpr->getType();
return false;
}
static bool
checkAMDGPUFlatWorkGroupSizeArguments(Sema &S, Expr *MinExpr, Expr *MaxExpr,
const AMDGPUFlatWorkGroupSizeAttr &Attr) {
// Accept template arguments for now as they depend on something else.
// We'll get to check them when they eventually get instantiated.
if (MinExpr->isValueDependent() || MaxExpr->isValueDependent())
return false;
uint32_t Min = 0;
if (!S.checkUInt32Argument(Attr, MinExpr, Min, 0))
return true;
uint32_t Max = 0;
if (!S.checkUInt32Argument(Attr, MaxExpr, Max, 1))
return true;
if (Min == 0 && Max != 0) {
S.Diag(Attr.getLocation(), diag::err_attribute_argument_invalid)
<< &Attr << 0;
return true;
}
if (Min > Max) {
S.Diag(Attr.getLocation(), diag::err_attribute_argument_invalid)
<< &Attr << 1;
return true;
}
return false;
}
AMDGPUFlatWorkGroupSizeAttr *
SemaAMDGPU::CreateAMDGPUFlatWorkGroupSizeAttr(const AttributeCommonInfo &CI,
Expr *MinExpr, Expr *MaxExpr) {
ASTContext &Context = getASTContext();
AMDGPUFlatWorkGroupSizeAttr TmpAttr(Context, CI, MinExpr, MaxExpr);
if (checkAMDGPUFlatWorkGroupSizeArguments(SemaRef, MinExpr, MaxExpr, TmpAttr))
return nullptr;
return ::new (Context)
AMDGPUFlatWorkGroupSizeAttr(Context, CI, MinExpr, MaxExpr);
}
void SemaAMDGPU::addAMDGPUFlatWorkGroupSizeAttr(Decl *D,
const AttributeCommonInfo &CI,
Expr *MinExpr, Expr *MaxExpr) {
if (auto *Attr = CreateAMDGPUFlatWorkGroupSizeAttr(CI, MinExpr, MaxExpr))
D->addAttr(Attr);
}
void SemaAMDGPU::handleAMDGPUFlatWorkGroupSizeAttr(Decl *D,
const ParsedAttr &AL) {
Expr *MinExpr = AL.getArgAsExpr(0);
Expr *MaxExpr = AL.getArgAsExpr(1);
addAMDGPUFlatWorkGroupSizeAttr(D, AL, MinExpr, MaxExpr);
}
static bool checkAMDGPUWavesPerEUArguments(Sema &S, Expr *MinExpr,
Expr *MaxExpr,
const AMDGPUWavesPerEUAttr &Attr) {
if (S.DiagnoseUnexpandedParameterPack(MinExpr) ||
(MaxExpr && S.DiagnoseUnexpandedParameterPack(MaxExpr)))
return true;
// Accept template arguments for now as they depend on something else.
// We'll get to check them when they eventually get instantiated.
if (MinExpr->isValueDependent() || (MaxExpr && MaxExpr->isValueDependent()))
return false;
uint32_t Min = 0;
if (!S.checkUInt32Argument(Attr, MinExpr, Min, 0))
return true;
uint32_t Max = 0;
if (MaxExpr && !S.checkUInt32Argument(Attr, MaxExpr, Max, 1))
return true;
if (Min == 0 && Max != 0) {
S.Diag(Attr.getLocation(), diag::err_attribute_argument_invalid)
<< &Attr << 0;
return true;
}
if (Max != 0 && Min > Max) {
S.Diag(Attr.getLocation(), diag::err_attribute_argument_invalid)
<< &Attr << 1;
return true;
}
return false;
}
AMDGPUWavesPerEUAttr *
SemaAMDGPU::CreateAMDGPUWavesPerEUAttr(const AttributeCommonInfo &CI,
Expr *MinExpr, Expr *MaxExpr) {
ASTContext &Context = getASTContext();
AMDGPUWavesPerEUAttr TmpAttr(Context, CI, MinExpr, MaxExpr);
if (checkAMDGPUWavesPerEUArguments(SemaRef, MinExpr, MaxExpr, TmpAttr))
return nullptr;
return ::new (Context) AMDGPUWavesPerEUAttr(Context, CI, MinExpr, MaxExpr);
}
void SemaAMDGPU::addAMDGPUWavesPerEUAttr(Decl *D, const AttributeCommonInfo &CI,
Expr *MinExpr, Expr *MaxExpr) {
if (auto *Attr = CreateAMDGPUWavesPerEUAttr(CI, MinExpr, MaxExpr))
D->addAttr(Attr);
}
void SemaAMDGPU::handleAMDGPUWavesPerEUAttr(Decl *D, const ParsedAttr &AL) {
if (!AL.checkAtLeastNumArgs(SemaRef, 1) || !AL.checkAtMostNumArgs(SemaRef, 2))
return;
Expr *MinExpr = AL.getArgAsExpr(0);
Expr *MaxExpr = (AL.getNumArgs() > 1) ? AL.getArgAsExpr(1) : nullptr;
addAMDGPUWavesPerEUAttr(D, AL, MinExpr, MaxExpr);
}
void SemaAMDGPU::handleAMDGPUNumSGPRAttr(Decl *D, const ParsedAttr &AL) {
uint32_t NumSGPR = 0;
Expr *NumSGPRExpr = AL.getArgAsExpr(0);
if (!SemaRef.checkUInt32Argument(AL, NumSGPRExpr, NumSGPR))
return;
D->addAttr(::new (getASTContext())
AMDGPUNumSGPRAttr(getASTContext(), AL, NumSGPR));
}
void SemaAMDGPU::handleAMDGPUNumVGPRAttr(Decl *D, const ParsedAttr &AL) {
uint32_t NumVGPR = 0;
Expr *NumVGPRExpr = AL.getArgAsExpr(0);
if (!SemaRef.checkUInt32Argument(AL, NumVGPRExpr, NumVGPR))
return;
D->addAttr(::new (getASTContext())
AMDGPUNumVGPRAttr(getASTContext(), AL, NumVGPR));
}
static bool
checkAMDGPUMaxNumWorkGroupsArguments(Sema &S, Expr *XExpr, Expr *YExpr,
Expr *ZExpr,
const AMDGPUMaxNumWorkGroupsAttr &Attr) {
if (S.DiagnoseUnexpandedParameterPack(XExpr) ||
(YExpr && S.DiagnoseUnexpandedParameterPack(YExpr)) ||
(ZExpr && S.DiagnoseUnexpandedParameterPack(ZExpr)))
return true;
// Accept template arguments for now as they depend on something else.
// We'll get to check them when they eventually get instantiated.
if (XExpr->isValueDependent() || (YExpr && YExpr->isValueDependent()) ||
(ZExpr && ZExpr->isValueDependent()))
return false;
uint32_t NumWG = 0;
Expr *Exprs[3] = {XExpr, YExpr, ZExpr};
for (int i = 0; i < 3; i++) {
if (Exprs[i]) {
if (!S.checkUInt32Argument(Attr, Exprs[i], NumWG, i,
/*StrictlyUnsigned=*/true))
return true;
if (NumWG == 0) {
S.Diag(Attr.getLoc(), diag::err_attribute_argument_is_zero)
<< &Attr << Exprs[i]->getSourceRange();
return true;
}
}
}
return false;
}
AMDGPUMaxNumWorkGroupsAttr *SemaAMDGPU::CreateAMDGPUMaxNumWorkGroupsAttr(
const AttributeCommonInfo &CI, Expr *XExpr, Expr *YExpr, Expr *ZExpr) {
ASTContext &Context = getASTContext();
AMDGPUMaxNumWorkGroupsAttr TmpAttr(Context, CI, XExpr, YExpr, ZExpr);
if (checkAMDGPUMaxNumWorkGroupsArguments(SemaRef, XExpr, YExpr, ZExpr,
TmpAttr))
return nullptr;
return ::new (Context)
AMDGPUMaxNumWorkGroupsAttr(Context, CI, XExpr, YExpr, ZExpr);
}
void SemaAMDGPU::addAMDGPUMaxNumWorkGroupsAttr(Decl *D,
const AttributeCommonInfo &CI,
Expr *XExpr, Expr *YExpr,
Expr *ZExpr) {
if (auto *Attr = CreateAMDGPUMaxNumWorkGroupsAttr(CI, XExpr, YExpr, ZExpr))
D->addAttr(Attr);
}
void SemaAMDGPU::handleAMDGPUMaxNumWorkGroupsAttr(Decl *D,
const ParsedAttr &AL) {
Expr *YExpr = (AL.getNumArgs() > 1) ? AL.getArgAsExpr(1) : nullptr;
Expr *ZExpr = (AL.getNumArgs() > 2) ? AL.getArgAsExpr(2) : nullptr;
addAMDGPUMaxNumWorkGroupsAttr(D, AL, AL.getArgAsExpr(0), YExpr, ZExpr);
}
} // namespace clang
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