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https://github.com/capstone-engine/llvm-capstone.git
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a53967cd55
Using recently established message severity codes, upgrade non-fatal messages to usage and portability warnings as appropriate. Differential Revision: https://reviews.llvm.org/D121246
97 lines
3.9 KiB
C++
97 lines
3.9 KiB
C++
//===-- lib/Evaluate/fold-complex.cpp -------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "fold-implementation.h"
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#include "fold-reduction.h"
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namespace Fortran::evaluate {
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template <int KIND>
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Expr<Type<TypeCategory::Complex, KIND>> FoldIntrinsicFunction(
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FoldingContext &context,
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FunctionRef<Type<TypeCategory::Complex, KIND>> &&funcRef) {
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using T = Type<TypeCategory::Complex, KIND>;
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using Part = typename T::Part;
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ActualArguments &args{funcRef.arguments()};
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auto *intrinsic{std::get_if<SpecificIntrinsic>(&funcRef.proc().u)};
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CHECK(intrinsic);
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std::string name{intrinsic->name};
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if (name == "acos" || name == "acosh" || name == "asin" || name == "asinh" ||
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name == "atan" || name == "atanh" || name == "cos" || name == "cosh" ||
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name == "exp" || name == "log" || name == "sin" || name == "sinh" ||
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name == "sqrt" || name == "tan" || name == "tanh") {
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if (auto callable{GetHostRuntimeWrapper<T, T>(name)}) {
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return FoldElementalIntrinsic<T, T>(
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context, std::move(funcRef), *callable);
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} else {
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context.messages().Say(
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"%s(complex(kind=%d)) cannot be folded on host"_warn_en_US, name,
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KIND);
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}
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} else if (name == "conjg") {
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return FoldElementalIntrinsic<T, T>(
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context, std::move(funcRef), &Scalar<T>::CONJG);
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} else if (name == "cmplx") {
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if (args.size() > 0 && args[0].has_value()) {
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if (auto *x{UnwrapExpr<Expr<SomeComplex>>(args[0])}) {
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// CMPLX(X [, KIND]) with complex X
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return Fold(context, ConvertToType<T>(std::move(*x)));
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} else {
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if (args.size() >= 2 && args[1].has_value()) {
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// Do not fold CMPLX with an Y argument that may be absent at runtime
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// into a complex constructor so that lowering can deal with the
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// optional aspect (there is no optional aspect with the complex
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// constructor).
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if (MayBePassedAsAbsentOptional(*args[1]->UnwrapExpr(), context)) {
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return Expr<T>{std::move(funcRef)};
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}
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}
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// CMPLX(X [, Y [, KIND]]) with non-complex X
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Expr<SomeType> re{std::move(*args[0].value().UnwrapExpr())};
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Expr<SomeType> im{args.size() >= 2 && args[1].has_value()
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? std::move(*args[1]->UnwrapExpr())
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: AsGenericExpr(Constant<Part>{Scalar<Part>{}})};
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return Fold(context,
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Expr<T>{
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ComplexConstructor<KIND>{ToReal<KIND>(context, std::move(re)),
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ToReal<KIND>(context, std::move(im))}});
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}
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}
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} else if (name == "merge") {
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return FoldMerge<T>(context, std::move(funcRef));
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} else if (name == "product") {
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auto one{Scalar<Part>::FromInteger(value::Integer<8>{1}).value};
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return FoldProduct<T>(context, std::move(funcRef), Scalar<T>{one});
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} else if (name == "sum") {
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return FoldSum<T>(context, std::move(funcRef));
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}
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// TODO: dot_product, matmul, transfer
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return Expr<T>{std::move(funcRef)};
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}
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template <int KIND>
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Expr<Type<TypeCategory::Complex, KIND>> FoldOperation(
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FoldingContext &context, ComplexConstructor<KIND> &&x) {
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if (auto array{ApplyElementwise(context, x)}) {
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return *array;
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}
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using Result = Type<TypeCategory::Complex, KIND>;
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if (auto folded{OperandsAreConstants(x)}) {
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return Expr<Result>{
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Constant<Result>{Scalar<Result>{folded->first, folded->second}}};
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}
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return Expr<Result>{std::move(x)};
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}
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#ifdef _MSC_VER // disable bogus warning about missing definitions
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#pragma warning(disable : 4661)
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#endif
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FOR_EACH_COMPLEX_KIND(template class ExpressionBase, )
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template class ExpressionBase<SomeComplex>;
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} // namespace Fortran::evaluate
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