[flang-commits] [flang] f023da1 - [mlir][IR] Remove factory methods from `FloatType` (#123026)
via flang-commits
flang-commits at lists.llvm.org
Wed Jan 15 23:56:14 PST 2025
Author: Matthias Springer
Date: 2025-01-16T08:56:09+01:00
New Revision: f023da12d12635f5fba436e825cbfc999e28e623
URL: https://github.com/llvm/llvm-project/commit/f023da12d12635f5fba436e825cbfc999e28e623
DIFF: https://github.com/llvm/llvm-project/commit/f023da12d12635f5fba436e825cbfc999e28e623.diff
LOG: [mlir][IR] Remove factory methods from `FloatType` (#123026)
This commit removes convenience methods from `FloatType` to make it
independent of concrete interface implementations.
See discussion here:
https://discourse.llvm.org/t/rethink-on-approach-to-low-precision-fp-types/82361
Note for LLVM integration: Replace `FloatType::getF32(` with
`Float32Type::get(` etc.
Added:
Modified:
flang/include/flang/Optimizer/Builder/Runtime/RTBuilder.h
flang/lib/Lower/ConvertType.cpp
flang/lib/Optimizer/Builder/FIRBuilder.cpp
flang/lib/Optimizer/Builder/IntrinsicCall.cpp
flang/lib/Optimizer/Builder/PPCIntrinsicCall.cpp
flang/lib/Optimizer/Builder/Runtime/Numeric.cpp
flang/lib/Optimizer/Builder/Runtime/Reduction.cpp
flang/lib/Optimizer/Builder/Runtime/Transformational.cpp
flang/lib/Optimizer/CodeGen/Target.cpp
flang/lib/Optimizer/Dialect/FIRType.cpp
flang/unittests/Optimizer/Builder/ComplexTest.cpp
flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp
flang/unittests/Optimizer/Builder/HLFIRToolsTest.cpp
flang/unittests/Optimizer/FIRTypesTest.cpp
flang/unittests/Optimizer/FortranVariableTest.cpp
flang/unittests/Optimizer/RTBuilder.cpp
mlir/include/mlir/IR/BuiltinTypeInterfaces.td
mlir/include/mlir/IR/BuiltinTypes.h
mlir/lib/CAPI/IR/BuiltinTypes.cpp
mlir/lib/IR/Builders.cpp
mlir/lib/IR/BuiltinTypes.cpp
mlir/lib/Target/LLVMIR/DataLayoutImporter.cpp
mlir/lib/Target/LLVMIR/ModuleImport.cpp
mlir/test/lib/Dialect/Affine/TestVectorizationUtils.cpp
mlir/test/lib/Dialect/Test/TestPatterns.cpp
mlir/test/lib/Transforms/TestDialectConversion.cpp
mlir/tools/tblgen-to-irdl/OpDefinitionsGen.cpp
mlir/unittests/IR/AttributeTest.cpp
mlir/unittests/IR/ShapedTypeTest.cpp
Removed:
################################################################################
diff --git a/flang/include/flang/Optimizer/Builder/Runtime/RTBuilder.h b/flang/include/flang/Optimizer/Builder/Runtime/RTBuilder.h
index 09b49b95fefe57..225326f441bc76 100644
--- a/flang/include/flang/Optimizer/Builder/Runtime/RTBuilder.h
+++ b/flang/include/flang/Optimizer/Builder/Runtime/RTBuilder.h
@@ -320,7 +320,7 @@ constexpr TypeBuilderFunc getModel<unsigned long long>() {
template <>
constexpr TypeBuilderFunc getModel<double>() {
return [](mlir::MLIRContext *context) -> mlir::Type {
- return mlir::FloatType::getF64(context);
+ return mlir::Float64Type::get(context);
};
}
template <>
@@ -347,11 +347,11 @@ constexpr TypeBuilderFunc getModel<long double>() {
static_assert(size == 16 || size == 10 || size == 8,
"unsupported long double size");
if constexpr (size == 16)
- return mlir::FloatType::getF128(context);
+ return mlir::Float128Type::get(context);
if constexpr (size == 10)
- return mlir::FloatType::getF80(context);
+ return mlir::Float80Type::get(context);
if constexpr (size == 8)
- return mlir::FloatType::getF64(context);
+ return mlir::Float64Type::get(context);
llvm_unreachable("failed static assert");
};
}
@@ -369,7 +369,7 @@ constexpr TypeBuilderFunc getModel<const long double *>() {
template <>
constexpr TypeBuilderFunc getModel<float>() {
return [](mlir::MLIRContext *context) -> mlir::Type {
- return mlir::FloatType::getF32(context);
+ return mlir::Float32Type::get(context);
};
}
template <>
diff --git a/flang/lib/Lower/ConvertType.cpp b/flang/lib/Lower/ConvertType.cpp
index 037d4335fedf13..2fab520e6c475a 100644
--- a/flang/lib/Lower/ConvertType.cpp
+++ b/flang/lib/Lower/ConvertType.cpp
@@ -36,17 +36,17 @@ static mlir::Type genRealType(mlir::MLIRContext *context, int kind) {
Fortran::common::TypeCategory::Real, kind)) {
switch (kind) {
case 2:
- return mlir::FloatType::getF16(context);
+ return mlir::Float16Type::get(context);
case 3:
- return mlir::FloatType::getBF16(context);
+ return mlir::BFloat16Type::get(context);
case 4:
- return mlir::FloatType::getF32(context);
+ return mlir::Float32Type::get(context);
case 8:
- return mlir::FloatType::getF64(context);
+ return mlir::Float64Type::get(context);
case 10:
- return mlir::FloatType::getF80(context);
+ return mlir::Float80Type::get(context);
case 16:
- return mlir::FloatType::getF128(context);
+ return mlir::Float128Type::get(context);
}
}
llvm_unreachable("REAL type translation not implemented");
diff --git a/flang/lib/Optimizer/Builder/FIRBuilder.cpp b/flang/lib/Optimizer/Builder/FIRBuilder.cpp
index 218f98ef9ef429..ad1244ef99b416 100644
--- a/flang/lib/Optimizer/Builder/FIRBuilder.cpp
+++ b/flang/lib/Optimizer/Builder/FIRBuilder.cpp
@@ -105,17 +105,17 @@ mlir::Type fir::FirOpBuilder::getVarLenSeqTy(mlir::Type eleTy, unsigned rank) {
mlir::Type fir::FirOpBuilder::getRealType(int kind) {
switch (kindMap.getRealTypeID(kind)) {
case llvm::Type::TypeID::HalfTyID:
- return mlir::FloatType::getF16(getContext());
+ return mlir::Float16Type::get(getContext());
case llvm::Type::TypeID::BFloatTyID:
- return mlir::FloatType::getBF16(getContext());
+ return mlir::BFloat16Type::get(getContext());
case llvm::Type::TypeID::FloatTyID:
- return mlir::FloatType::getF32(getContext());
+ return mlir::Float32Type::get(getContext());
case llvm::Type::TypeID::DoubleTyID:
- return mlir::FloatType::getF64(getContext());
+ return mlir::Float64Type::get(getContext());
case llvm::Type::TypeID::X86_FP80TyID:
- return mlir::FloatType::getF80(getContext());
+ return mlir::Float80Type::get(getContext());
case llvm::Type::TypeID::FP128TyID:
- return mlir::FloatType::getF128(getContext());
+ return mlir::Float128Type::get(getContext());
default:
fir::emitFatalError(mlir::UnknownLoc::get(getContext()),
"unsupported type !fir.real<kind>");
diff --git a/flang/lib/Optimizer/Builder/IntrinsicCall.cpp b/flang/lib/Optimizer/Builder/IntrinsicCall.cpp
index f6f2e15e469e61..6a343645ab8786 100644
--- a/flang/lib/Optimizer/Builder/IntrinsicCall.cpp
+++ b/flang/lib/Optimizer/Builder/IntrinsicCall.cpp
@@ -2367,7 +2367,7 @@ mlir::Value IntrinsicLibrary::genAcosd(mlir::Type resultType,
mlir::FunctionType::get(context, {resultType}, {args[0].getType()});
llvm::APFloat pi = llvm::APFloat(llvm::numbers::pi);
mlir::Value dfactor = builder.createRealConstant(
- loc, mlir::FloatType::getF64(context), pi / llvm::APFloat(180.0));
+ loc, mlir::Float64Type::get(context), pi / llvm::APFloat(180.0));
mlir::Value factor = builder.createConvert(loc, args[0].getType(), dfactor);
mlir::Value arg = builder.create<mlir::arith::MulFOp>(loc, args[0], factor);
return getRuntimeCallGenerator("acos", ftype)(builder, loc, {arg});
@@ -2518,7 +2518,7 @@ mlir::Value IntrinsicLibrary::genAsind(mlir::Type resultType,
mlir::FunctionType::get(context, {resultType}, {args[0].getType()});
llvm::APFloat pi = llvm::APFloat(llvm::numbers::pi);
mlir::Value dfactor = builder.createRealConstant(
- loc, mlir::FloatType::getF64(context), pi / llvm::APFloat(180.0));
+ loc, mlir::Float64Type::get(context), pi / llvm::APFloat(180.0));
mlir::Value factor = builder.createConvert(loc, args[0].getType(), dfactor);
mlir::Value arg = builder.create<mlir::arith::MulFOp>(loc, args[0], factor);
return getRuntimeCallGenerator("asin", ftype)(builder, loc, {arg});
@@ -2544,7 +2544,7 @@ mlir::Value IntrinsicLibrary::genAtand(mlir::Type resultType,
}
llvm::APFloat pi = llvm::APFloat(llvm::numbers::pi);
mlir::Value dfactor = builder.createRealConstant(
- loc, mlir::FloatType::getF64(context), llvm::APFloat(180.0) / pi);
+ loc, mlir::Float64Type::get(context), llvm::APFloat(180.0) / pi);
mlir::Value factor = builder.createConvert(loc, resultType, dfactor);
return builder.create<mlir::arith::MulFOp>(loc, atan, factor);
}
@@ -2569,7 +2569,7 @@ mlir::Value IntrinsicLibrary::genAtanpi(mlir::Type resultType,
}
llvm::APFloat inv_pi = llvm::APFloat(llvm::numbers::inv_pi);
mlir::Value dfactor =
- builder.createRealConstant(loc, mlir::FloatType::getF64(context), inv_pi);
+ builder.createRealConstant(loc, mlir::Float64Type::get(context), inv_pi);
mlir::Value factor = builder.createConvert(loc, resultType, dfactor);
return builder.create<mlir::arith::MulFOp>(loc, atan, factor);
}
@@ -3124,7 +3124,7 @@ mlir::Value IntrinsicLibrary::genCosd(mlir::Type resultType,
mlir::FunctionType::get(context, {resultType}, {args[0].getType()});
llvm::APFloat pi = llvm::APFloat(llvm::numbers::pi);
mlir::Value dfactor = builder.createRealConstant(
- loc, mlir::FloatType::getF64(context), pi / llvm::APFloat(180.0));
+ loc, mlir::Float64Type::get(context), pi / llvm::APFloat(180.0));
mlir::Value factor = builder.createConvert(loc, args[0].getType(), dfactor);
mlir::Value arg = builder.create<mlir::arith::MulFOp>(loc, args[0], factor);
return getRuntimeCallGenerator("cos", ftype)(builder, loc, {arg});
@@ -4418,12 +4418,12 @@ IntrinsicLibrary::genIeeeCopySign(mlir::Type resultType,
mlir::FloatType yRealType =
mlir::dyn_cast<mlir::FloatType>(yRealVal.getType());
- if (yRealType == mlir::FloatType::getBF16(builder.getContext())) {
+ if (yRealType == mlir::BFloat16Type::get(builder.getContext())) {
// Workaround: CopySignOp and BitcastOp don't work for kind 3 arg Y.
// This conversion should always preserve the sign bit.
yRealVal = builder.createConvert(
- loc, mlir::FloatType::getF32(builder.getContext()), yRealVal);
- yRealType = mlir::FloatType::getF32(builder.getContext());
+ loc, mlir::Float32Type::get(builder.getContext()), yRealVal);
+ yRealType = mlir::Float32Type::get(builder.getContext());
}
// Args have the same type.
@@ -4979,7 +4979,7 @@ mlir::Value IntrinsicLibrary::genIeeeReal(mlir::Type resultType,
assert(args.size() == 2);
mlir::Type i1Ty = builder.getI1Type();
- mlir::Type f32Ty = mlir::FloatType::getF32(builder.getContext());
+ mlir::Type f32Ty = mlir::Float32Type::get(builder.getContext());
mlir::Value a = args[0];
mlir::Type aType = a.getType();
@@ -5179,7 +5179,7 @@ mlir::Value IntrinsicLibrary::genIeeeRem(mlir::Type resultType,
mlir::Value x = args[0];
mlir::Value y = args[1];
if (mlir::dyn_cast<mlir::FloatType>(resultType).getWidth() < 32) {
- mlir::Type f32Ty = mlir::FloatType::getF32(builder.getContext());
+ mlir::Type f32Ty = mlir::Float32Type::get(builder.getContext());
x = builder.create<fir::ConvertOp>(loc, f32Ty, x);
y = builder.create<fir::ConvertOp>(loc, f32Ty, y);
} else {
@@ -5213,7 +5213,7 @@ mlir::Value IntrinsicLibrary::genIeeeRint(mlir::Type resultType,
}
if (mlir::cast<mlir::FloatType>(resultType).getWidth() == 16)
a = builder.create<fir::ConvertOp>(
- loc, mlir::FloatType::getF32(builder.getContext()), a);
+ loc, mlir::Float32Type::get(builder.getContext()), a);
mlir::Value result = builder.create<fir::ConvertOp>(
loc, resultType, genRuntimeCall("nearbyint", a.getType(), a));
if (isStaticallyPresent(args[1])) {
@@ -5298,10 +5298,10 @@ mlir::Value IntrinsicLibrary::genIeeeSignbit(mlir::Type resultType,
mlir::Value realVal = args[0];
mlir::FloatType realType = mlir::dyn_cast<mlir::FloatType>(realVal.getType());
int bitWidth = realType.getWidth();
- if (realType == mlir::FloatType::getBF16(builder.getContext())) {
+ if (realType == mlir::BFloat16Type::get(builder.getContext())) {
// Workaround: can't bitcast or convert real(3) to integer(2) or real(2).
realVal = builder.createConvert(
- loc, mlir::FloatType::getF32(builder.getContext()), realVal);
+ loc, mlir::Float32Type::get(builder.getContext()), realVal);
bitWidth = 32;
}
mlir::Type intType = builder.getIntegerType(bitWidth);
@@ -6065,7 +6065,7 @@ mlir::Value IntrinsicLibrary::genModulo(mlir::Type resultType,
auto fastMathFlags = builder.getFastMathFlags();
// F128 arith::RemFOp may be lowered to a runtime call that may be unsupported
// on the target, so generate a call to Fortran Runtime's ModuloReal16.
- if (resultType == mlir::FloatType::getF128(builder.getContext()) ||
+ if (resultType == mlir::Float128Type::get(builder.getContext()) ||
(fastMathFlags & mlir::arith::FastMathFlags::ninf) ==
mlir::arith::FastMathFlags::none)
return builder.createConvert(
@@ -6254,7 +6254,7 @@ mlir::Value IntrinsicLibrary::genNearest(mlir::Type resultType,
mlir::FloatType yType = mlir::dyn_cast<mlir::FloatType>(args[1].getType());
const unsigned yBitWidth = yType.getWidth();
if (xType != yType) {
- mlir::Type f32Ty = mlir::FloatType::getF32(builder.getContext());
+ mlir::Type f32Ty = mlir::Float32Type::get(builder.getContext());
if (xBitWidth < 32)
x1 = builder.createConvert(loc, f32Ty, x1);
if (yBitWidth > 32 && yBitWidth > xBitWidth)
@@ -7205,7 +7205,7 @@ mlir::Value IntrinsicLibrary::genSind(mlir::Type resultType,
mlir::FunctionType::get(context, {resultType}, {args[0].getType()});
llvm::APFloat pi = llvm::APFloat(llvm::numbers::pi);
mlir::Value dfactor = builder.createRealConstant(
- loc, mlir::FloatType::getF64(context), pi / llvm::APFloat(180.0));
+ loc, mlir::Float64Type::get(context), pi / llvm::APFloat(180.0));
mlir::Value factor = builder.createConvert(loc, args[0].getType(), dfactor);
mlir::Value arg = builder.create<mlir::arith::MulFOp>(loc, args[0], factor);
return getRuntimeCallGenerator("sin", ftype)(builder, loc, {arg});
@@ -7286,7 +7286,7 @@ mlir::Value IntrinsicLibrary::genTand(mlir::Type resultType,
mlir::FunctionType::get(context, {resultType}, {args[0].getType()});
llvm::APFloat pi = llvm::APFloat(llvm::numbers::pi);
mlir::Value dfactor = builder.createRealConstant(
- loc, mlir::FloatType::getF64(context), pi / llvm::APFloat(180.0));
+ loc, mlir::Float64Type::get(context), pi / llvm::APFloat(180.0));
mlir::Value factor = builder.createConvert(loc, args[0].getType(), dfactor);
mlir::Value arg = builder.create<mlir::arith::MulFOp>(loc, args[0], factor);
return getRuntimeCallGenerator("tan", ftype)(builder, loc, {arg});
diff --git a/flang/lib/Optimizer/Builder/PPCIntrinsicCall.cpp b/flang/lib/Optimizer/Builder/PPCIntrinsicCall.cpp
index b3b07d18a956ba..fcc91752552c33 100644
--- a/flang/lib/Optimizer/Builder/PPCIntrinsicCall.cpp
+++ b/flang/lib/Optimizer/Builder/PPCIntrinsicCall.cpp
@@ -1579,7 +1579,7 @@ PPCIntrinsicLibrary::genVecConvert(mlir::Type resultType,
return callOp.getResult(0);
} else if (width == 64) {
- auto fTy{mlir::FloatType::getF64(context)};
+ auto fTy{mlir::Float64Type::get(context)};
auto ty{mlir::VectorType::get(2, fTy)};
// vec_vtf(arg1, arg2) = fmul(1.0 / (1 << arg2), llvm.sitofp(arg1))
@@ -1639,7 +1639,7 @@ PPCIntrinsicLibrary::genVecConvert(mlir::Type resultType,
newArgs[0] =
builder.create<fir::CallOp>(loc, funcOp, newArgs).getResult(0);
auto fvf32Ty{newArgs[0].getType()};
- auto f32type{mlir::FloatType::getF32(context)};
+ auto f32type{mlir::Float32Type::get(context)};
auto mvf32Ty{mlir::VectorType::get(4, f32type)};
newArgs[0] = builder.createConvert(loc, mvf32Ty, newArgs[0]);
@@ -1949,7 +1949,7 @@ PPCIntrinsicLibrary::genVecLdCallGrp(mlir::Type resultType,
fname = isBEVecElemOrderOnLE() ? "llvm.ppc.vsx.lxvd2x.be"
: "llvm.ppc.vsx.lxvd2x";
// llvm.ppc.altivec.lxvd2x* returns <2 x double>
- intrinResTy = mlir::VectorType::get(2, mlir::FloatType::getF64(context));
+ intrinResTy = mlir::VectorType::get(2, mlir::Float64Type::get(context));
} break;
case VecOp::Xlw4:
fname = isBEVecElemOrderOnLE() ? "llvm.ppc.vsx.lxvw4x.be"
@@ -2092,7 +2092,7 @@ PPCIntrinsicLibrary::genVecPerm(mlir::Type resultType,
auto mlirTy{vecTyInfo.toMlirVectorType(context)};
auto vi32Ty{mlir::VectorType::get(4, mlir::IntegerType::get(context, 32))};
- auto vf64Ty{mlir::VectorType::get(2, mlir::FloatType::getF64(context))};
+ auto vf64Ty{mlir::VectorType::get(2, mlir::Float64Type::get(context))};
auto mArg0{builder.createConvert(loc, mlirTy, argBases[0])};
auto mArg1{builder.createConvert(loc, mlirTy, argBases[1])};
diff --git a/flang/lib/Optimizer/Builder/Runtime/Numeric.cpp b/flang/lib/Optimizer/Builder/Runtime/Numeric.cpp
index d0092add0118f1..4ff7c86bb0a24a 100644
--- a/flang/lib/Optimizer/Builder/Runtime/Numeric.cpp
+++ b/flang/lib/Optimizer/Builder/Runtime/Numeric.cpp
@@ -27,7 +27,7 @@ struct ForcedErfcScaled10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ErfcScaled10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
@@ -38,7 +38,7 @@ struct ForcedErfcScaled16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ErfcScaled16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
@@ -49,7 +49,7 @@ struct ForcedExponent10_4 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Exponent10_4));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF80(ctx);
+ auto fltTy = mlir::Float80Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 32);
return mlir::FunctionType::get(ctx, fltTy, intTy);
};
@@ -60,7 +60,7 @@ struct ForcedExponent10_8 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Exponent10_8));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF80(ctx);
+ auto fltTy = mlir::Float80Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 64);
return mlir::FunctionType::get(ctx, fltTy, intTy);
};
@@ -72,7 +72,7 @@ struct ForcedExponent16_4 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Exponent16_4));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF128(ctx);
+ auto fltTy = mlir::Float128Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 32);
return mlir::FunctionType::get(ctx, fltTy, intTy);
};
@@ -83,7 +83,7 @@ struct ForcedExponent16_8 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Exponent16_8));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF128(ctx);
+ auto fltTy = mlir::Float128Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 64);
return mlir::FunctionType::get(ctx, fltTy, intTy);
};
@@ -95,7 +95,7 @@ struct ForcedFraction10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Fraction10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
@@ -106,7 +106,7 @@ struct ForcedFraction16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Fraction16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
@@ -117,7 +117,7 @@ struct ForcedMod10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ModReal10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF80(ctx);
+ auto fltTy = mlir::Float80Type::get(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
auto intTy = mlir::IntegerType::get(ctx, 8 * sizeof(int));
return mlir::FunctionType::get(ctx, {fltTy, fltTy, strTy, intTy},
@@ -131,7 +131,7 @@ struct ForcedMod16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ModReal16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF128(ctx);
+ auto fltTy = mlir::Float128Type::get(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
auto intTy = mlir::IntegerType::get(ctx, 8 * sizeof(int));
return mlir::FunctionType::get(ctx, {fltTy, fltTy, strTy, intTy},
@@ -145,7 +145,7 @@ struct ForcedModulo10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ModuloReal10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF80(ctx);
+ auto fltTy = mlir::Float80Type::get(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
auto intTy = mlir::IntegerType::get(ctx, 8 * sizeof(int));
return mlir::FunctionType::get(ctx, {fltTy, fltTy, strTy, intTy},
@@ -159,7 +159,7 @@ struct ForcedModulo16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ModuloReal16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF128(ctx);
+ auto fltTy = mlir::Float128Type::get(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
auto intTy = mlir::IntegerType::get(ctx, 8 * sizeof(int));
return mlir::FunctionType::get(ctx, {fltTy, fltTy, strTy, intTy},
@@ -173,7 +173,7 @@ struct ForcedNearest10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Nearest10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF80(ctx);
+ auto fltTy = mlir::Float80Type::get(ctx);
auto boolTy = mlir::IntegerType::get(ctx, 1);
return mlir::FunctionType::get(ctx, {fltTy, boolTy}, {fltTy});
};
@@ -185,7 +185,7 @@ struct ForcedNearest16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Nearest16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF128(ctx);
+ auto fltTy = mlir::Float128Type::get(ctx);
auto boolTy = mlir::IntegerType::get(ctx, 1);
return mlir::FunctionType::get(ctx, {fltTy, boolTy}, {fltTy});
};
@@ -197,7 +197,7 @@ struct ForcedRRSpacing10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(RRSpacing10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
@@ -208,7 +208,7 @@ struct ForcedRRSpacing16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(RRSpacing16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
@@ -219,7 +219,7 @@ struct ForcedScale10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Scale10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF80(ctx);
+ auto fltTy = mlir::Float80Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 64);
return mlir::FunctionType::get(ctx, {fltTy, intTy}, {fltTy});
};
@@ -231,7 +231,7 @@ struct ForcedScale16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Scale16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF128(ctx);
+ auto fltTy = mlir::Float128Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 64);
return mlir::FunctionType::get(ctx, {fltTy, intTy}, {fltTy});
};
@@ -243,7 +243,7 @@ struct ForcedSetExponent10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(SetExponent10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF80(ctx);
+ auto fltTy = mlir::Float80Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 64);
return mlir::FunctionType::get(ctx, {fltTy, intTy}, {fltTy});
};
@@ -255,7 +255,7 @@ struct ForcedSetExponent16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(SetExponent16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto fltTy = mlir::FloatType::getF128(ctx);
+ auto fltTy = mlir::Float128Type::get(ctx);
auto intTy = mlir::IntegerType::get(ctx, 64);
return mlir::FunctionType::get(ctx, {fltTy, intTy}, {fltTy});
};
@@ -267,7 +267,7 @@ struct ForcedSpacing10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Spacing10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
@@ -278,7 +278,7 @@ struct ForcedSpacing16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Spacing16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
return mlir::FunctionType::get(ctx, {ty}, {ty});
};
}
diff --git a/flang/lib/Optimizer/Builder/Runtime/Reduction.cpp b/flang/lib/Optimizer/Builder/Runtime/Reduction.cpp
index 1aa941bd2131c2..3cc094ee64784d 100644
--- a/flang/lib/Optimizer/Builder/Runtime/Reduction.cpp
+++ b/flang/lib/Optimizer/Builder/Runtime/Reduction.cpp
@@ -27,7 +27,7 @@ struct ForcedMaxvalReal10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(MaxvalReal10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -43,7 +43,7 @@ struct ForcedMaxvalReal16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(MaxvalReal16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -94,7 +94,7 @@ struct ForcedMinvalReal10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(MinvalReal10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -110,7 +110,7 @@ struct ForcedMinvalReal16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(MinvalReal16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -173,7 +173,7 @@ struct ForcedNorm2Real10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Norm2_10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -188,7 +188,7 @@ struct ForcedNorm2Real16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(Norm2_16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -219,7 +219,7 @@ struct ForcedProductReal10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ProductReal10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -235,7 +235,7 @@ struct ForcedProductReal16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(ProductReal16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -287,7 +287,7 @@ struct ForcedProductComplex10 {
ExpandAndQuoteKey(RTNAME(CppProductComplex10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF80(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float80Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -305,7 +305,7 @@ struct ForcedProductComplex16 {
ExpandAndQuoteKey(RTNAME(CppProductComplex16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF128(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float128Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -323,7 +323,7 @@ struct ForcedDotProductReal10 {
ExpandAndQuoteKey(RTNAME(DotProductReal10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -339,7 +339,7 @@ struct ForcedDotProductReal16 {
ExpandAndQuoteKey(RTNAME(DotProductReal16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -355,7 +355,7 @@ struct ForcedDotProductComplex10 {
ExpandAndQuoteKey(RTNAME(CppDotProductComplex10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF80(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float80Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -373,7 +373,7 @@ struct ForcedDotProductComplex16 {
ExpandAndQuoteKey(RTNAME(CppDotProductComplex16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF128(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float128Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -423,7 +423,7 @@ struct ForcedSumReal10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(SumReal10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -439,7 +439,7 @@ struct ForcedSumReal16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(SumReal16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -489,7 +489,7 @@ struct ForcedSumComplex10 {
ExpandAndQuoteKey(RTNAME(CppSumComplex10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF80(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float80Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -507,7 +507,7 @@ struct ForcedSumComplex16 {
ExpandAndQuoteKey(RTNAME(CppSumComplex16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF128(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float128Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -573,7 +573,7 @@ struct ForcedReduceReal10Ref {
ExpandAndQuoteKey(RTNAME(ReduceReal10Ref));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -593,7 +593,7 @@ struct ForcedReduceReal10Value {
ExpandAndQuoteKey(RTNAME(ReduceReal10Value));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -613,7 +613,7 @@ struct ForcedReduceReal16Ref {
ExpandAndQuoteKey(RTNAME(ReduceReal16Ref));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -633,7 +633,7 @@ struct ForcedReduceReal16Value {
ExpandAndQuoteKey(RTNAME(ReduceReal16Value));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -653,7 +653,7 @@ struct ForcedReduceReal10DimRef {
ExpandAndQuoteKey(RTNAME(ReduceReal10DimRef));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -675,7 +675,7 @@ struct ForcedReduceReal10DimValue {
ExpandAndQuoteKey(RTNAME(ReduceReal10DimValue));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -697,7 +697,7 @@ struct ForcedReduceReal16DimRef {
ExpandAndQuoteKey(RTNAME(ReduceReal16DimRef));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -719,7 +719,7 @@ struct ForcedReduceReal16DimValue {
ExpandAndQuoteKey(RTNAME(ReduceReal16DimValue));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -911,7 +911,7 @@ struct ForcedReduceComplex10Ref {
ExpandAndQuoteKey(RTNAME(CppReduceComplex10Ref));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF80(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float80Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -932,7 +932,7 @@ struct ForcedReduceComplex10Value {
ExpandAndQuoteKey(RTNAME(CppReduceComplex10Value));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF80(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float80Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -953,7 +953,7 @@ struct ForcedReduceComplex10DimRef {
ExpandAndQuoteKey(RTNAME(CppReduceComplex10DimRef));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF80(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float80Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -975,7 +975,7 @@ struct ForcedReduceComplex10DimValue {
ExpandAndQuoteKey(RTNAME(CppReduceComplex10DimValue));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF80(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float80Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -997,7 +997,7 @@ struct ForcedReduceComplex16Ref {
ExpandAndQuoteKey(RTNAME(CppReduceComplex16Ref));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF128(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float128Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -1018,7 +1018,7 @@ struct ForcedReduceComplex16Value {
ExpandAndQuoteKey(RTNAME(CppReduceComplex16Value));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF128(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float128Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -1039,7 +1039,7 @@ struct ForcedReduceComplex16DimRef {
ExpandAndQuoteKey(RTNAME(CppReduceComplex16DimRef));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF128(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float128Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
@@ -1061,7 +1061,7 @@ struct ForcedReduceComplex16DimValue {
ExpandAndQuoteKey(RTNAME(CppReduceComplex16DimValue));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::ComplexType::get(mlir::FloatType::getF128(ctx));
+ auto ty = mlir::ComplexType::get(mlir::Float128Type::get(ctx));
auto boxTy =
fir::runtime::getModel<const Fortran::runtime::Descriptor &>()(ctx);
auto refTy = fir::ReferenceType::get(ty);
diff --git a/flang/lib/Optimizer/Builder/Runtime/Transformational.cpp b/flang/lib/Optimizer/Builder/Runtime/Transformational.cpp
index 517ba3799798fe..9492d2d4568522 100644
--- a/flang/lib/Optimizer/Builder/Runtime/Transformational.cpp
+++ b/flang/lib/Optimizer/Builder/Runtime/Transformational.cpp
@@ -25,7 +25,7 @@ struct ForcedBesselJn_10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(BesselJn_10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -42,7 +42,7 @@ struct ForcedBesselJn_16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(BesselJn_16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -91,7 +91,7 @@ struct ForcedBesselYn_10 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(BesselYn_10));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF80(ctx);
+ auto ty = mlir::Float80Type::get(ctx);
auto boxTy =
fir::runtime::getModel<Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
@@ -108,7 +108,7 @@ struct ForcedBesselYn_16 {
static constexpr const char *name = ExpandAndQuoteKey(RTNAME(BesselYn_16));
static constexpr fir::runtime::FuncTypeBuilderFunc getTypeModel() {
return [](mlir::MLIRContext *ctx) {
- auto ty = mlir::FloatType::getF128(ctx);
+ auto ty = mlir::Float128Type::get(ctx);
auto boxTy =
fir::runtime::getModel<Fortran::runtime::Descriptor &>()(ctx);
auto strTy = fir::ReferenceType::get(mlir::IntegerType::get(ctx, 8));
diff --git a/flang/lib/Optimizer/CodeGen/Target.cpp b/flang/lib/Optimizer/CodeGen/Target.cpp
index c332493eb8072a..1bc673bb34e32c 100644
--- a/flang/lib/Optimizer/CodeGen/Target.cpp
+++ b/flang/lib/Optimizer/CodeGen/Target.cpp
@@ -572,12 +572,12 @@ struct TargetX86_64 : public GenericTarget<TargetX86_64> {
// select an fp type of the right size, and it makes things simpler
// here.
if (partByteSize > 8)
- return mlir::FloatType::getF128(context);
+ return mlir::Float128Type::get(context);
if (partByteSize > 4)
- return mlir::FloatType::getF64(context);
+ return mlir::Float64Type::get(context);
if (partByteSize > 2)
- return mlir::FloatType::getF32(context);
- return mlir::FloatType::getF16(context);
+ return mlir::Float32Type::get(context);
+ return mlir::Float16Type::get(context);
}
assert(partByteSize <= 8 &&
"expect integer part of aggregate argument to fit into eight bytes");
diff --git a/flang/lib/Optimizer/Dialect/FIRType.cpp b/flang/lib/Optimizer/Dialect/FIRType.cpp
index d25e5651f1142f..d8ce231d1b5a70 100644
--- a/flang/lib/Optimizer/Dialect/FIRType.cpp
+++ b/flang/lib/Optimizer/Dialect/FIRType.cpp
@@ -1249,17 +1249,17 @@ mlir::Type fir::fromRealTypeID(mlir::MLIRContext *context,
llvm::Type::TypeID typeID, fir::KindTy kind) {
switch (typeID) {
case llvm::Type::TypeID::HalfTyID:
- return mlir::FloatType::getF16(context);
+ return mlir::Float16Type::get(context);
case llvm::Type::TypeID::BFloatTyID:
- return mlir::FloatType::getBF16(context);
+ return mlir::BFloat16Type::get(context);
case llvm::Type::TypeID::FloatTyID:
- return mlir::FloatType::getF32(context);
+ return mlir::Float32Type::get(context);
case llvm::Type::TypeID::DoubleTyID:
- return mlir::FloatType::getF64(context);
+ return mlir::Float64Type::get(context);
case llvm::Type::TypeID::X86_FP80TyID:
- return mlir::FloatType::getF80(context);
+ return mlir::Float80Type::get(context);
case llvm::Type::TypeID::FP128TyID:
- return mlir::FloatType::getF128(context);
+ return mlir::Float128Type::get(context);
default:
mlir::emitError(mlir::UnknownLoc::get(context))
<< "unsupported type: !fir.real<" << kind << ">";
diff --git a/flang/unittests/Optimizer/Builder/ComplexTest.cpp b/flang/unittests/Optimizer/Builder/ComplexTest.cpp
index eefab118e255a7..689af4642b0b66 100644
--- a/flang/unittests/Optimizer/Builder/ComplexTest.cpp
+++ b/flang/unittests/Optimizer/Builder/ComplexTest.cpp
@@ -34,7 +34,7 @@ struct ComplexTest : public testing::Test {
helper = std::make_unique<fir::factory::Complex>(*firBuilder, loc);
// Init commonly used types
- realTy1 = mlir::FloatType::getF32(&context);
+ realTy1 = mlir::Float32Type::get(&context);
complexTy1 = mlir::ComplexType::get(realTy1);
integerTy1 = mlir::IntegerType::get(&context, 32);
diff --git a/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp b/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp
index 05407d96998a26..3e2af24c47b96b 100644
--- a/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp
+++ b/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp
@@ -146,7 +146,7 @@ TEST_F(FIRBuilderTest, createRealZeroConstant) {
auto builder = getBuilder();
auto ctx = builder.getContext();
auto loc = builder.getUnknownLoc();
- auto realTy = mlir::FloatType::getF64(ctx);
+ auto realTy = mlir::Float64Type::get(ctx);
auto cst = builder.createRealZeroConstant(loc, realTy);
EXPECT_TRUE(mlir::isa<arith::ConstantOp>(cst.getDefiningOp()));
auto cstOp = dyn_cast<arith::ConstantOp>(cst.getDefiningOp());
@@ -434,7 +434,7 @@ TEST_F(FIRBuilderTest, createZeroValue) {
auto intAttr = mlir::dyn_cast<mlir::IntegerAttr>(cst.getValue());
EXPECT_TRUE(intAttr && intAttr.getInt() == 0);
- mlir::Type f32Ty = mlir::FloatType::getF32(builder.getContext());
+ mlir::Type f32Ty = mlir::Float32Type::get(builder.getContext());
mlir::Value zeroFloat = fir::factory::createZeroValue(builder, loc, f32Ty);
EXPECT_TRUE(zeroFloat.getType() == f32Ty);
auto cst2 = mlir::dyn_cast_or_null<mlir::arith::ConstantOp>(
@@ -494,7 +494,7 @@ TEST_F(FIRBuilderTest, getBaseTypeOf) {
return {scalars, arrays};
};
- auto f32Ty = mlir::FloatType::getF32(builder.getContext());
+ auto f32Ty = mlir::Float32Type::get(builder.getContext());
mlir::Type f32SeqTy = builder.getVarLenSeqTy(f32Ty);
auto [f32Scalars, f32Arrays] = makeExv(f32Ty, f32SeqTy);
for (const auto &scalar : f32Scalars) {
@@ -537,7 +537,7 @@ TEST_F(FIRBuilderTest, genArithFastMath) {
auto ctx = builder.getContext();
auto loc = builder.getUnknownLoc();
- auto realTy = mlir::FloatType::getF32(ctx);
+ auto realTy = mlir::Float32Type::get(ctx);
auto arg = builder.create<fir::UndefOp>(loc, realTy);
// Test that FastMathFlags is 'none' by default.
diff --git a/flang/unittests/Optimizer/Builder/HLFIRToolsTest.cpp b/flang/unittests/Optimizer/Builder/HLFIRToolsTest.cpp
index 640b7ecc1e565c..29700d2d3dbff8 100644
--- a/flang/unittests/Optimizer/Builder/HLFIRToolsTest.cpp
+++ b/flang/unittests/Optimizer/Builder/HLFIRToolsTest.cpp
@@ -59,7 +59,7 @@ struct HLFIRToolsTest : public testing::Test {
TEST_F(HLFIRToolsTest, testScalarRoundTrip) {
auto &builder = getBuilder();
mlir::Location loc = getLoc();
- mlir::Type f32Type = mlir::FloatType::getF32(&context);
+ mlir::Type f32Type = mlir::Float32Type::get(&context);
mlir::Type scalarf32Type = builder.getRefType(f32Type);
mlir::Value scalarf32Addr = builder.create<fir::UndefOp>(loc, scalarf32Type);
fir::ExtendedValue scalarf32{scalarf32Addr};
@@ -82,7 +82,7 @@ TEST_F(HLFIRToolsTest, testArrayRoundTrip) {
llvm::SmallVector<mlir::Value> lbounds{
createConstant(-1), createConstant(-2)};
- mlir::Type f32Type = mlir::FloatType::getF32(&context);
+ mlir::Type f32Type = mlir::Float32Type::get(&context);
mlir::Type seqf32Type = builder.getVarLenSeqTy(f32Type, 2);
mlir::Type arrayf32Type = builder.getRefType(seqf32Type);
mlir::Value arrayf32Addr = builder.create<fir::UndefOp>(loc, arrayf32Type);
diff --git a/flang/unittests/Optimizer/FIRTypesTest.cpp b/flang/unittests/Optimizer/FIRTypesTest.cpp
index a07c018a8afd5e..b3151b4aa7efb5 100644
--- a/flang/unittests/Optimizer/FIRTypesTest.cpp
+++ b/flang/unittests/Optimizer/FIRTypesTest.cpp
@@ -227,7 +227,7 @@ TEST_F(FIRTypesTest, updateTypeForUnlimitedPolymorphic) {
mlir::Type ptrArrNone = fir::PointerType::get(arrNone);
mlir::Type i32Ty = mlir::IntegerType::get(&context, 32);
- mlir::Type f32Ty = mlir::FloatType::getF32(&context);
+ mlir::Type f32Ty = mlir::Float32Type::get(&context);
mlir::Type l1Ty = fir::LogicalType::get(&context, 1);
mlir::Type cplx32Ty = mlir::ComplexType::get(f32Ty);
mlir::Type char1Ty = fir::CharacterType::get(&context, 1, 10);
@@ -268,12 +268,12 @@ TEST_F(FIRTypesTest, getTypeAsString) {
fir::ReferenceType::get(mlir::IntegerType::get(&context, 32)),
*kindMap));
EXPECT_EQ(
- "f64", fir::getTypeAsString(mlir::FloatType::getF64(&context), *kindMap));
+ "f64", fir::getTypeAsString(mlir::Float64Type::get(&context), *kindMap));
EXPECT_EQ(
"l8", fir::getTypeAsString(fir::LogicalType::get(&context, 1), *kindMap));
EXPECT_EQ("z32",
fir::getTypeAsString(
- mlir::ComplexType::get(mlir::FloatType::getF32(&context)), *kindMap));
+ mlir::ComplexType::get(mlir::Float32Type::get(&context)), *kindMap));
EXPECT_EQ("c8",
fir::getTypeAsString(fir::CharacterType::get(&context, 1, 1), *kindMap));
EXPECT_EQ("c8x10",
diff --git a/flang/unittests/Optimizer/FortranVariableTest.cpp b/flang/unittests/Optimizer/FortranVariableTest.cpp
index 4ba9359a07e4d8..30c23b63b4d564 100644
--- a/flang/unittests/Optimizer/FortranVariableTest.cpp
+++ b/flang/unittests/Optimizer/FortranVariableTest.cpp
@@ -45,7 +45,7 @@ struct FortranVariableTest : public testing::Test {
TEST_F(FortranVariableTest, SimpleScalar) {
mlir::Location loc = getLoc();
- mlir::Type eleType = mlir::FloatType::getF32(&context);
+ mlir::Type eleType = mlir::Float32Type::get(&context);
mlir::Value addr = builder->create<fir::AllocaOp>(loc, eleType);
auto name = mlir::StringAttr::get(&context, "x");
auto declare = builder->create<fir::DeclareOp>(loc, addr.getType(), addr,
@@ -96,7 +96,7 @@ TEST_F(FortranVariableTest, CharacterScalar) {
TEST_F(FortranVariableTest, SimpleArray) {
mlir::Location loc = getLoc();
- mlir::Type eleType = mlir::FloatType::getF32(&context);
+ mlir::Type eleType = mlir::Float32Type::get(&context);
llvm::SmallVector<mlir::Value> extents{
createConstant(10), createConstant(20), createConstant(30)};
fir::SequenceType::Shape typeShape(
diff --git a/flang/unittests/Optimizer/RTBuilder.cpp b/flang/unittests/Optimizer/RTBuilder.cpp
index 35b9f1a6d5dcb0..00960801928f77 100644
--- a/flang/unittests/Optimizer/RTBuilder.cpp
+++ b/flang/unittests/Optimizer/RTBuilder.cpp
@@ -31,7 +31,7 @@ TEST(RTBuilderTest, ComplexRuntimeInterface) {
auto c99_cacosf_funcTy = mlir::cast<mlir::FunctionType>(c99_cacosf_signature);
EXPECT_EQ(c99_cacosf_funcTy.getNumInputs(), 1u);
EXPECT_EQ(c99_cacosf_funcTy.getNumResults(), 1u);
- auto cplx_ty = mlir::ComplexType::get(mlir::FloatType::getF32(&ctx));
+ auto cplx_ty = mlir::ComplexType::get(mlir::Float32Type::get(&ctx));
EXPECT_EQ(c99_cacosf_funcTy.getInput(0), cplx_ty);
EXPECT_EQ(c99_cacosf_funcTy.getResult(0), cplx_ty);
}
diff --git a/mlir/include/mlir/IR/BuiltinTypeInterfaces.td b/mlir/include/mlir/IR/BuiltinTypeInterfaces.td
index c36b738e38f42a..8aa2c555701531 100644
--- a/mlir/include/mlir/IR/BuiltinTypeInterfaces.td
+++ b/mlir/include/mlir/IR/BuiltinTypeInterfaces.td
@@ -46,26 +46,6 @@ def FloatTypeInterface : TypeInterface<"FloatType"> {
];
let extraClassDeclaration = [{
- // Convenience factories.
- static FloatType getBF16(MLIRContext *ctx);
- static FloatType getF16(MLIRContext *ctx);
- static FloatType getF32(MLIRContext *ctx);
- static FloatType getTF32(MLIRContext *ctx);
- static FloatType getF64(MLIRContext *ctx);
- static FloatType getF80(MLIRContext *ctx);
- static FloatType getF128(MLIRContext *ctx);
- static FloatType getFloat8E5M2(MLIRContext *ctx);
- static FloatType getFloat8E4M3(MLIRContext *ctx);
- static FloatType getFloat8E4M3FN(MLIRContext *ctx);
- static FloatType getFloat8E5M2FNUZ(MLIRContext *ctx);
- static FloatType getFloat8E4M3FNUZ(MLIRContext *ctx);
- static FloatType getFloat8E4M3B11FNUZ(MLIRContext *ctx);
- static FloatType getFloat8E3M4(MLIRContext *ctx);
- static FloatType getFloat4E2M1FN(MLIRContext *ctx);
- static FloatType getFloat6E2M3FN(MLIRContext *ctx);
- static FloatType getFloat6E3M2FN(MLIRContext *ctx);
- static FloatType getFloat8E8M0FNU(MLIRContext *ctx);
-
/// Return the bitwidth of this float type.
unsigned getWidth();
diff --git a/mlir/include/mlir/IR/BuiltinTypes.h b/mlir/include/mlir/IR/BuiltinTypes.h
index 2b3c2b6d1753dc..19c5361124aacb 100644
--- a/mlir/include/mlir/IR/BuiltinTypes.h
+++ b/mlir/include/mlir/IR/BuiltinTypes.h
@@ -401,78 +401,6 @@ inline bool BaseMemRefType::isValidElementType(Type type) {
llvm::isa<MemRefElementTypeInterface>(type);
}
-inline FloatType FloatType::getFloat4E2M1FN(MLIRContext *ctx) {
- return Float4E2M1FNType::get(ctx);
-}
-
-inline FloatType FloatType::getFloat6E2M3FN(MLIRContext *ctx) {
- return Float6E2M3FNType::get(ctx);
-}
-
-inline FloatType FloatType::getFloat6E3M2FN(MLIRContext *ctx) {
- return Float6E3M2FNType::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E5M2(MLIRContext *ctx) {
- return Float8E5M2Type::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E4M3(MLIRContext *ctx) {
- return Float8E4M3Type::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E4M3FN(MLIRContext *ctx) {
- return Float8E4M3FNType::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E5M2FNUZ(MLIRContext *ctx) {
- return Float8E5M2FNUZType::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E4M3FNUZ(MLIRContext *ctx) {
- return Float8E4M3FNUZType::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E4M3B11FNUZ(MLIRContext *ctx) {
- return Float8E4M3B11FNUZType::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E3M4(MLIRContext *ctx) {
- return Float8E3M4Type::get(ctx);
-}
-
-inline FloatType FloatType::getFloat8E8M0FNU(MLIRContext *ctx) {
- return Float8E8M0FNUType::get(ctx);
-}
-
-inline FloatType FloatType::getBF16(MLIRContext *ctx) {
- return BFloat16Type::get(ctx);
-}
-
-inline FloatType FloatType::getF16(MLIRContext *ctx) {
- return Float16Type::get(ctx);
-}
-
-inline FloatType FloatType::getTF32(MLIRContext *ctx) {
- return FloatTF32Type::get(ctx);
-}
-
-inline FloatType FloatType::getF32(MLIRContext *ctx) {
- return Float32Type::get(ctx);
-}
-
-inline FloatType FloatType::getF64(MLIRContext *ctx) {
- return Float64Type::get(ctx);
-}
-
-inline FloatType FloatType::getF80(MLIRContext *ctx) {
- return Float80Type::get(ctx);
-}
-
-inline FloatType FloatType::getF128(MLIRContext *ctx) {
- return Float128Type::get(ctx);
-}
-
inline bool TensorType::classof(Type type) {
return llvm::isa<RankedTensorType, UnrankedTensorType>(type);
}
diff --git a/mlir/lib/CAPI/IR/BuiltinTypes.cpp b/mlir/lib/CAPI/IR/BuiltinTypes.cpp
index 252ff54afe0c5d..250e4a6bbf8dfd 100644
--- a/mlir/lib/CAPI/IR/BuiltinTypes.cpp
+++ b/mlir/lib/CAPI/IR/BuiltinTypes.cpp
@@ -94,7 +94,7 @@ bool mlirTypeIsAFloat4E2M1FN(MlirType type) {
}
MlirType mlirFloat4E2M1FNTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat4E2M1FN(unwrap(ctx)));
+ return wrap(Float4E2M1FNType::get(unwrap(ctx)));
}
MlirTypeID mlirFloat6E2M3FNTypeGetTypeID() {
@@ -106,7 +106,7 @@ bool mlirTypeIsAFloat6E2M3FN(MlirType type) {
}
MlirType mlirFloat6E2M3FNTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat6E2M3FN(unwrap(ctx)));
+ return wrap(Float6E2M3FNType::get(unwrap(ctx)));
}
MlirTypeID mlirFloat6E3M2FNTypeGetTypeID() {
@@ -118,7 +118,7 @@ bool mlirTypeIsAFloat6E3M2FN(MlirType type) {
}
MlirType mlirFloat6E3M2FNTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat6E3M2FN(unwrap(ctx)));
+ return wrap(Float6E3M2FNType::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E5M2TypeGetTypeID() {
@@ -130,7 +130,7 @@ bool mlirTypeIsAFloat8E5M2(MlirType type) {
}
MlirType mlirFloat8E5M2TypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E5M2(unwrap(ctx)));
+ return wrap(Float8E5M2Type::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E4M3TypeGetTypeID() {
@@ -142,7 +142,7 @@ bool mlirTypeIsAFloat8E4M3(MlirType type) {
}
MlirType mlirFloat8E4M3TypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E4M3(unwrap(ctx)));
+ return wrap(Float8E4M3Type::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E4M3FNTypeGetTypeID() {
@@ -154,7 +154,7 @@ bool mlirTypeIsAFloat8E4M3FN(MlirType type) {
}
MlirType mlirFloat8E4M3FNTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E4M3FN(unwrap(ctx)));
+ return wrap(Float8E4M3FNType::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E5M2FNUZTypeGetTypeID() {
@@ -166,7 +166,7 @@ bool mlirTypeIsAFloat8E5M2FNUZ(MlirType type) {
}
MlirType mlirFloat8E5M2FNUZTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E5M2FNUZ(unwrap(ctx)));
+ return wrap(Float8E5M2FNUZType::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E4M3FNUZTypeGetTypeID() {
@@ -178,7 +178,7 @@ bool mlirTypeIsAFloat8E4M3FNUZ(MlirType type) {
}
MlirType mlirFloat8E4M3FNUZTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E4M3FNUZ(unwrap(ctx)));
+ return wrap(Float8E4M3FNUZType::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E4M3B11FNUZTypeGetTypeID() {
@@ -190,7 +190,7 @@ bool mlirTypeIsAFloat8E4M3B11FNUZ(MlirType type) {
}
MlirType mlirFloat8E4M3B11FNUZTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E4M3B11FNUZ(unwrap(ctx)));
+ return wrap(Float8E4M3B11FNUZType::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E3M4TypeGetTypeID() {
@@ -202,7 +202,7 @@ bool mlirTypeIsAFloat8E3M4(MlirType type) {
}
MlirType mlirFloat8E3M4TypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E3M4(unwrap(ctx)));
+ return wrap(Float8E3M4Type::get(unwrap(ctx)));
}
MlirTypeID mlirFloat8E8M0FNUTypeGetTypeID() {
@@ -214,7 +214,7 @@ bool mlirTypeIsAFloat8E8M0FNU(MlirType type) {
}
MlirType mlirFloat8E8M0FNUTypeGet(MlirContext ctx) {
- return wrap(FloatType::getFloat8E8M0FNU(unwrap(ctx)));
+ return wrap(Float8E8M0FNUType::get(unwrap(ctx)));
}
MlirTypeID mlirBFloat16TypeGetTypeID() {
@@ -224,7 +224,7 @@ MlirTypeID mlirBFloat16TypeGetTypeID() {
bool mlirTypeIsABF16(MlirType type) { return unwrap(type).isBF16(); }
MlirType mlirBF16TypeGet(MlirContext ctx) {
- return wrap(FloatType::getBF16(unwrap(ctx)));
+ return wrap(BFloat16Type::get(unwrap(ctx)));
}
MlirTypeID mlirFloat16TypeGetTypeID() { return wrap(Float16Type::getTypeID()); }
@@ -232,7 +232,7 @@ MlirTypeID mlirFloat16TypeGetTypeID() { return wrap(Float16Type::getTypeID()); }
bool mlirTypeIsAF16(MlirType type) { return unwrap(type).isF16(); }
MlirType mlirF16TypeGet(MlirContext ctx) {
- return wrap(FloatType::getF16(unwrap(ctx)));
+ return wrap(Float16Type::get(unwrap(ctx)));
}
MlirTypeID mlirFloatTF32TypeGetTypeID() {
@@ -242,7 +242,7 @@ MlirTypeID mlirFloatTF32TypeGetTypeID() {
bool mlirTypeIsATF32(MlirType type) { return unwrap(type).isTF32(); }
MlirType mlirTF32TypeGet(MlirContext ctx) {
- return wrap(FloatType::getTF32(unwrap(ctx)));
+ return wrap(FloatTF32Type::get(unwrap(ctx)));
}
MlirTypeID mlirFloat32TypeGetTypeID() { return wrap(Float32Type::getTypeID()); }
@@ -250,7 +250,7 @@ MlirTypeID mlirFloat32TypeGetTypeID() { return wrap(Float32Type::getTypeID()); }
bool mlirTypeIsAF32(MlirType type) { return unwrap(type).isF32(); }
MlirType mlirF32TypeGet(MlirContext ctx) {
- return wrap(FloatType::getF32(unwrap(ctx)));
+ return wrap(Float32Type::get(unwrap(ctx)));
}
MlirTypeID mlirFloat64TypeGetTypeID() { return wrap(Float64Type::getTypeID()); }
@@ -258,7 +258,7 @@ MlirTypeID mlirFloat64TypeGetTypeID() { return wrap(Float64Type::getTypeID()); }
bool mlirTypeIsAF64(MlirType type) { return unwrap(type).isF64(); }
MlirType mlirF64TypeGet(MlirContext ctx) {
- return wrap(FloatType::getF64(unwrap(ctx)));
+ return wrap(Float64Type::get(unwrap(ctx)));
}
//===----------------------------------------------------------------------===//
diff --git a/mlir/lib/IR/Builders.cpp b/mlir/lib/IR/Builders.cpp
index edc4709ec3c6e3..8439b063f2634b 100644
--- a/mlir/lib/IR/Builders.cpp
+++ b/mlir/lib/IR/Builders.cpp
@@ -35,62 +35,56 @@ Location Builder::getFusedLoc(ArrayRef<Location> locs, Attribute metadata) {
//===----------------------------------------------------------------------===//
FloatType Builder::getFloat4E2M1FNType() {
- return FloatType::getFloat4E2M1FN(context);
+ return Float4E2M1FNType::get(context);
}
FloatType Builder::getFloat6E2M3FNType() {
- return FloatType::getFloat6E2M3FN(context);
+ return Float6E2M3FNType::get(context);
}
FloatType Builder::getFloat6E3M2FNType() {
- return FloatType::getFloat6E3M2FN(context);
+ return Float6E3M2FNType::get(context);
}
-FloatType Builder::getFloat8E5M2Type() {
- return FloatType::getFloat8E5M2(context);
-}
+FloatType Builder::getFloat8E5M2Type() { return Float8E5M2Type::get(context); }
-FloatType Builder::getFloat8E4M3Type() {
- return FloatType::getFloat8E4M3(context);
-}
+FloatType Builder::getFloat8E4M3Type() { return Float8E4M3Type::get(context); }
FloatType Builder::getFloat8E4M3FNType() {
- return FloatType::getFloat8E4M3FN(context);
+ return Float8E4M3FNType::get(context);
}
FloatType Builder::getFloat8E5M2FNUZType() {
- return FloatType::getFloat8E5M2FNUZ(context);
+ return Float8E5M2FNUZType::get(context);
}
FloatType Builder::getFloat8E4M3FNUZType() {
- return FloatType::getFloat8E4M3FNUZ(context);
+ return Float8E4M3FNUZType::get(context);
}
FloatType Builder::getFloat8E4M3B11FNUZType() {
- return FloatType::getFloat8E4M3B11FNUZ(context);
+ return Float8E4M3B11FNUZType::get(context);
}
-FloatType Builder::getFloat8E3M4Type() {
- return FloatType::getFloat8E3M4(context);
-}
+FloatType Builder::getFloat8E3M4Type() { return Float8E3M4Type::get(context); }
FloatType Builder::getFloat8E8M0FNUType() {
- return FloatType::getFloat8E8M0FNU(context);
+ return Float8E8M0FNUType::get(context);
}
-FloatType Builder::getBF16Type() { return FloatType::getBF16(context); }
+FloatType Builder::getBF16Type() { return BFloat16Type::get(context); }
-FloatType Builder::getF16Type() { return FloatType::getF16(context); }
+FloatType Builder::getF16Type() { return Float16Type::get(context); }
-FloatType Builder::getTF32Type() { return FloatType::getTF32(context); }
+FloatType Builder::getTF32Type() { return FloatTF32Type::get(context); }
-FloatType Builder::getF32Type() { return FloatType::getF32(context); }
+FloatType Builder::getF32Type() { return Float32Type::get(context); }
-FloatType Builder::getF64Type() { return FloatType::getF64(context); }
+FloatType Builder::getF64Type() { return Float64Type::get(context); }
-FloatType Builder::getF80Type() { return FloatType::getF80(context); }
+FloatType Builder::getF80Type() { return Float80Type::get(context); }
-FloatType Builder::getF128Type() { return FloatType::getF128(context); }
+FloatType Builder::getF128Type() { return Float128Type::get(context); }
IndexType Builder::getIndexType() { return IndexType::get(context); }
diff --git a/mlir/lib/IR/BuiltinTypes.cpp b/mlir/lib/IR/BuiltinTypes.cpp
index 41b794bc0aec59..bd1163bddf7ee0 100644
--- a/mlir/lib/IR/BuiltinTypes.cpp
+++ b/mlir/lib/IR/BuiltinTypes.cpp
@@ -117,23 +117,23 @@ FLOAT_TYPE_SEMANTICS(Float128Type, IEEEquad)
FloatType Float16Type::scaleElementBitwidth(unsigned scale) const {
if (scale == 2)
- return FloatType::getF32(getContext());
+ return Float32Type::get(getContext());
if (scale == 4)
- return FloatType::getF64(getContext());
+ return Float64Type::get(getContext());
return FloatType();
}
FloatType BFloat16Type::scaleElementBitwidth(unsigned scale) const {
if (scale == 2)
- return FloatType::getF32(getContext());
+ return Float32Type::get(getContext());
if (scale == 4)
- return FloatType::getF64(getContext());
+ return Float64Type::get(getContext());
return FloatType();
}
FloatType Float32Type::scaleElementBitwidth(unsigned scale) const {
if (scale == 2)
- return FloatType::getF64(getContext());
+ return Float64Type::get(getContext());
return FloatType();
}
diff --git a/mlir/lib/Target/LLVMIR/DataLayoutImporter.cpp b/mlir/lib/Target/LLVMIR/DataLayoutImporter.cpp
index 35001757f214e1..35fdbc0be22c31 100644
--- a/mlir/lib/Target/LLVMIR/DataLayoutImporter.cpp
+++ b/mlir/lib/Target/LLVMIR/DataLayoutImporter.cpp
@@ -29,15 +29,15 @@ FloatType mlir::LLVM::detail::getFloatType(MLIRContext *context,
unsigned width) {
switch (width) {
case 16:
- return FloatType::getF16(context);
+ return Float16Type::get(context);
case 32:
- return FloatType::getF32(context);
+ return Float32Type::get(context);
case 64:
- return FloatType::getF64(context);
+ return Float64Type::get(context);
case 80:
- return FloatType::getF80(context);
+ return Float80Type::get(context);
case 128:
- return FloatType::getF128(context);
+ return Float128Type::get(context);
default:
return {};
}
diff --git a/mlir/lib/Target/LLVMIR/ModuleImport.cpp b/mlir/lib/Target/LLVMIR/ModuleImport.cpp
index eba86f06d09056..f6826a2362bfdf 100644
--- a/mlir/lib/Target/LLVMIR/ModuleImport.cpp
+++ b/mlir/lib/Target/LLVMIR/ModuleImport.cpp
@@ -816,7 +816,7 @@ static TypedAttr getScalarConstantAsAttr(OpBuilder &builder,
llvm::Type *type = constFloat->getType();
FloatType floatType =
type->isBFloatTy()
- ? FloatType::getBF16(context)
+ ? BFloat16Type::get(context)
: LLVM::detail::getFloatType(context, type->getScalarSizeInBits());
if (!floatType) {
emitError(UnknownLoc::get(builder.getContext()))
diff --git a/mlir/test/lib/Dialect/Affine/TestVectorizationUtils.cpp b/mlir/test/lib/Dialect/Affine/TestVectorizationUtils.cpp
index 598678f64cb467..c32bd24014215c 100644
--- a/mlir/test/lib/Dialect/Affine/TestVectorizationUtils.cpp
+++ b/mlir/test/lib/Dialect/Affine/TestVectorizationUtils.cpp
@@ -101,8 +101,7 @@ void VectorizerTestPass::testVectorShapeRatio(llvm::raw_ostream &outs) {
using affine::matcher::Op;
SmallVector<int64_t, 8> shape(clTestVectorShapeRatio.begin(),
clTestVectorShapeRatio.end());
- auto subVectorType =
- VectorType::get(shape, FloatType::getF32(f.getContext()));
+ auto subVectorType = VectorType::get(shape, Float32Type::get(f.getContext()));
// Only filter operations that operate on a strict super-vector and have one
// return. This makes testing easier.
auto filter = [&](Operation &op) {
diff --git a/mlir/test/lib/Dialect/Test/TestPatterns.cpp b/mlir/test/lib/Dialect/Test/TestPatterns.cpp
index 5b7c36c9b97bf4..b20e0816bd17c6 100644
--- a/mlir/test/lib/Dialect/Test/TestPatterns.cpp
+++ b/mlir/test/lib/Dialect/Test/TestPatterns.cpp
@@ -1286,7 +1286,7 @@ struct TestTypeConverter : public TypeConverter {
// Convert I64 to F64.
if (t.isSignlessInteger(64)) {
- results.push_back(FloatType::getF64(t.getContext()));
+ results.push_back(Float64Type::get(t.getContext()));
return success();
}
@@ -1298,7 +1298,7 @@ struct TestTypeConverter : public TypeConverter {
// Split F32 into F16,F16.
if (t.isF32()) {
- results.assign(2, FloatType::getF16(t.getContext()));
+ results.assign(2, Float16Type::get(t.getContext()));
return success();
}
@@ -1826,7 +1826,7 @@ struct TestTypeConversionDriver
return type;
// Allow converting BF16/F16/F32 to F64.
if (type.isBF16() || type.isF16() || type.isF32())
- return FloatType::getF64(type.getContext());
+ return Float64Type::get(type.getContext());
// Otherwise, the type is illegal.
return nullptr;
});
diff --git a/mlir/test/lib/Transforms/TestDialectConversion.cpp b/mlir/test/lib/Transforms/TestDialectConversion.cpp
index a03bf0a1023d57..8278937a1014cc 100644
--- a/mlir/test/lib/Transforms/TestDialectConversion.cpp
+++ b/mlir/test/lib/Transforms/TestDialectConversion.cpp
@@ -34,7 +34,7 @@ struct PDLLTypeConverter : public TypeConverter {
static LogicalResult convertType(Type t, SmallVectorImpl<Type> &results) {
// Convert I64 to F64.
if (t.isSignlessInteger(64)) {
- results.push_back(FloatType::getF64(t.getContext()));
+ results.push_back(Float64Type::get(t.getContext()));
return success();
}
diff --git a/mlir/tools/tblgen-to-irdl/OpDefinitionsGen.cpp b/mlir/tools/tblgen-to-irdl/OpDefinitionsGen.cpp
index a763105fa0fd6a..4e354e535dd3af 100644
--- a/mlir/tools/tblgen-to-irdl/OpDefinitionsGen.cpp
+++ b/mlir/tools/tblgen-to-irdl/OpDefinitionsGen.cpp
@@ -107,15 +107,15 @@ std::optional<Type> recordToType(MLIRContext *ctx, const Record &predRec) {
auto width = predRec.getValueAsInt("bitwidth");
switch (width) {
case 16:
- return FloatType::getF16(ctx);
+ return Float16Type::get(ctx);
case 32:
- return FloatType::getF32(ctx);
+ return Float32Type::get(ctx);
case 64:
- return FloatType::getF64(ctx);
+ return Float64Type::get(ctx);
case 80:
- return FloatType::getF80(ctx);
+ return Float80Type::get(ctx);
case 128:
- return FloatType::getF128(ctx);
+ return Float128Type::get(ctx);
}
}
@@ -124,39 +124,39 @@ std::optional<Type> recordToType(MLIRContext *ctx, const Record &predRec) {
}
if (predRec.getName() == "BF16") {
- return FloatType::getBF16(ctx);
+ return BFloat16Type::get(ctx);
}
if (predRec.getName() == "TF32") {
- return FloatType::getTF32(ctx);
+ return FloatTF32Type::get(ctx);
}
if (predRec.getName() == "F8E4M3FN") {
- return FloatType::getFloat8E4M3FN(ctx);
+ return Float8E4M3FNType::get(ctx);
}
if (predRec.getName() == "F8E5M2") {
- return FloatType::getFloat8E5M2(ctx);
+ return Float8E5M2Type::get(ctx);
}
if (predRec.getName() == "F8E4M3") {
- return FloatType::getFloat8E4M3(ctx);
+ return Float8E4M3Type::get(ctx);
}
if (predRec.getName() == "F8E4M3FNUZ") {
- return FloatType::getFloat8E4M3FNUZ(ctx);
+ return Float8E4M3FNUZType::get(ctx);
}
if (predRec.getName() == "F8E4M3B11FNUZ") {
- return FloatType::getFloat8E4M3B11FNUZ(ctx);
+ return Float8E4M3B11FNUZType::get(ctx);
}
if (predRec.getName() == "F8E5M2FNUZ") {
- return FloatType::getFloat8E5M2FNUZ(ctx);
+ return Float8E5M2FNUZType::get(ctx);
}
if (predRec.getName() == "F8E3M4") {
- return FloatType::getFloat8E3M4(ctx);
+ return Float8E3M4Type::get(ctx);
}
if (predRec.isSubClassOf("Complex")) {
diff --git a/mlir/unittests/IR/AttributeTest.cpp b/mlir/unittests/IR/AttributeTest.cpp
index 2b2ec056739431..a55592db7132db 100644
--- a/mlir/unittests/IR/AttributeTest.cpp
+++ b/mlir/unittests/IR/AttributeTest.cpp
@@ -154,7 +154,7 @@ TEST(DenseSplatTest, IntAttrSplat) {
TEST(DenseSplatTest, F32Splat) {
MLIRContext context;
- FloatType floatTy = FloatType::getF32(&context);
+ FloatType floatTy = Float32Type::get(&context);
float value = 10.0;
testSplat(floatTy, value);
@@ -162,7 +162,7 @@ TEST(DenseSplatTest, F32Splat) {
TEST(DenseSplatTest, F64Splat) {
MLIRContext context;
- FloatType floatTy = FloatType::getF64(&context);
+ FloatType floatTy = Float64Type::get(&context);
double value = 10.0;
testSplat(floatTy, APFloat(value));
@@ -170,7 +170,7 @@ TEST(DenseSplatTest, F64Splat) {
TEST(DenseSplatTest, FloatAttrSplat) {
MLIRContext context;
- FloatType floatTy = FloatType::getF32(&context);
+ FloatType floatTy = Float32Type::get(&context);
Attribute value = FloatAttr::get(floatTy, 10.0);
testSplat(floatTy, value);
@@ -178,7 +178,7 @@ TEST(DenseSplatTest, FloatAttrSplat) {
TEST(DenseSplatTest, BF16Splat) {
MLIRContext context;
- FloatType floatTy = FloatType::getBF16(&context);
+ FloatType floatTy = BFloat16Type::get(&context);
Attribute value = FloatAttr::get(floatTy, 10.0);
testSplat(floatTy, value);
@@ -204,7 +204,7 @@ TEST(DenseSplatTest, StringAttrSplat) {
TEST(DenseComplexTest, ComplexFloatSplat) {
MLIRContext context;
- ComplexType complexType = ComplexType::get(FloatType::getF32(&context));
+ ComplexType complexType = ComplexType::get(Float32Type::get(&context));
std::complex<float> value(10.0, 15.0);
testSplat(complexType, value);
}
@@ -218,7 +218,7 @@ TEST(DenseComplexTest, ComplexIntSplat) {
TEST(DenseComplexTest, ComplexAPFloatSplat) {
MLIRContext context;
- ComplexType complexType = ComplexType::get(FloatType::getF32(&context));
+ ComplexType complexType = ComplexType::get(Float32Type::get(&context));
std::complex<APFloat> value(APFloat(10.0f), APFloat(15.0f));
testSplat(complexType, value);
}
@@ -409,7 +409,7 @@ TEST(SparseElementsAttrTest, GetZero) {
context.allowUnregisteredDialects();
IntegerType intTy = IntegerType::get(&context, 32);
- FloatType floatTy = FloatType::getF32(&context);
+ FloatType floatTy = Float32Type::get(&context);
Type stringTy = OpaqueType::get(StringAttr::get(&context, "test"), "string");
ShapedType tensorI32 = RankedTensorType::get({2, 2}, intTy);
diff --git a/mlir/unittests/IR/ShapedTypeTest.cpp b/mlir/unittests/IR/ShapedTypeTest.cpp
index 7a5b0722a03ba0..c2900b5aaeeebd 100644
--- a/mlir/unittests/IR/ShapedTypeTest.cpp
+++ b/mlir/unittests/IR/ShapedTypeTest.cpp
@@ -24,7 +24,7 @@ TEST(ShapedTypeTest, CloneMemref) {
MLIRContext context;
Type i32 = IntegerType::get(&context, 32);
- Type f32 = FloatType::getF32(&context);
+ Type f32 = Float32Type::get(&context);
Attribute memSpace = IntegerAttr::get(IntegerType::get(&context, 64), 7);
Type memrefOriginalType = i32;
llvm::SmallVector<int64_t> memrefOriginalShape({10, 20});
@@ -71,7 +71,7 @@ TEST(ShapedTypeTest, CloneTensor) {
MLIRContext context;
Type i32 = IntegerType::get(&context, 32);
- Type f32 = FloatType::getF32(&context);
+ Type f32 = Float32Type::get(&context);
Type tensorOriginalType = i32;
llvm::SmallVector<int64_t> tensorOriginalShape({10, 20});
@@ -111,7 +111,7 @@ TEST(ShapedTypeTest, CloneVector) {
MLIRContext context;
Type i32 = IntegerType::get(&context, 32);
- Type f32 = FloatType::getF32(&context);
+ Type f32 = Float32Type::get(&context);
Type vectorOriginalType = i32;
llvm::SmallVector<int64_t> vectorOriginalShape({10, 20});
@@ -134,7 +134,7 @@ TEST(ShapedTypeTest, CloneVector) {
TEST(ShapedTypeTest, VectorTypeBuilder) {
MLIRContext context;
- Type f32 = FloatType::getF32(&context);
+ Type f32 = Float32Type::get(&context);
SmallVector<int64_t> shape{2, 4, 8, 9, 1};
SmallVector<bool> scalableDims{true, false, true, false, false};
@@ -192,7 +192,7 @@ TEST(ShapedTypeTest, VectorTypeBuilder) {
TEST(ShapedTypeTest, RankedTensorTypeBuilder) {
MLIRContext context;
- Type f32 = FloatType::getF32(&context);
+ Type f32 = Float32Type::get(&context);
SmallVector<int64_t> shape{2, 4, 8, 16, 32};
RankedTensorType tensorType = RankedTensorType::get(shape, f32);
@@ -254,7 +254,7 @@ class TensorWithString : public RankedTensorType {
TEST(ShapedTypeTest, RankedTensorTypeView) {
MLIRContext context;
- Type f32 = FloatType::getF32(&context);
+ Type f32 = Float32Type::get(&context);
Type noEncodingRankedTensorType = RankedTensorType::get({10, 20}, f32);
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