flang/lib/Evaluate/fold.cpp - llvm-project - Git at Google

 //===-- lib/Evaluate/fold.cpp ---------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include "flang/Evaluate/fold.h"
 #include "fold-implementation.h"
 #include "flang/Evaluate/characteristics.h"

 namespace Fortran::evaluate {

 characteristics::TypeAndShape Fold(
     FoldingContext &context, characteristics::TypeAndShape &&x) {
   x.Rewrite(context);
   return std::move(x);
 }

 std::optional<Constant<SubscriptInteger>> GetConstantSubscript(
     FoldingContext &context, Subscript &ss, const NamedEntity &base, int dim) {
   ss = FoldOperation(context, std::move(ss));
   return std::visit(
       common::visitors{
           [](IndirectSubscriptIntegerExpr &expr)
               -> std::optional<Constant<SubscriptInteger>> {
             if (const auto *constant{
                     UnwrapConstantValue<SubscriptInteger>(expr.value())}) {
               return *constant;
             } else {
               return std::nullopt;
             }
           },
           [&](Triplet &triplet) -> std::optional<Constant<SubscriptInteger>> {
             auto lower{triplet.lower()}, upper{triplet.upper()};
             std::optional<ConstantSubscript> stride{ToInt64(triplet.stride())};
             if (!lower) {
               lower = GetLowerBound(context, base, dim);
             }
             if (!upper) {
               upper =
                   ComputeUpperBound(context, GetLowerBound(context, base, dim),
                       GetExtent(context, base, dim));
             }
             auto lbi{ToInt64(lower)}, ubi{ToInt64(upper)};
             if (lbi && ubi && stride && *stride != 0) {
               std::vector<SubscriptInteger::Scalar> values;
               while ((*stride > 0 && *lbi <= *ubi) ||
                   (*stride < 0 && *lbi >= *ubi)) {
                 values.emplace_back(*lbi);
                 *lbi += *stride;
               }
               return Constant<SubscriptInteger>{std::move(values),
                   ConstantSubscripts{
                       static_cast<ConstantSubscript>(values.size())}};
             } else {
               return std::nullopt;
             }
           },
       },
       ss.u);
 }

 Expr<SomeDerived> FoldOperation(
     FoldingContext &context, StructureConstructor &&structure) {
   StructureConstructor ctor{structure.derivedTypeSpec()};
   bool constantExtents{true};
   for (auto &&[symbol, value] : std::move(structure)) {
     auto expr{Fold(context, std::move(value.value()))};
     if (!IsPointer(symbol)) {
       bool ok{false};
       if (auto valueShape{GetConstantExtents(context, expr)}) {
         if (auto componentShape{GetConstantExtents(context, symbol)}) {
           if (GetRank(*componentShape) > 0 && GetRank(*valueShape) == 0) {
             expr = ScalarConstantExpander{std::move(*componentShape)}.Expand(
                 std::move(expr));
             ok = expr.Rank() > 0;
           } else {
             ok = *valueShape == *componentShape;
           }
         }
       }
       if (!ok) {
         constantExtents = false;
       }
     }
     ctor.Add(symbol, Fold(context, std::move(expr)));
   }
   if (constantExtents && IsConstantExpr(ctor)) {
     return Expr<SomeDerived>{Constant<SomeDerived>{std::move(ctor)}};
   } else {
     return Expr<SomeDerived>{std::move(ctor)};
   }
 }

 Component FoldOperation(FoldingContext &context, Component &&component) {
   return {FoldOperation(context, std::move(component.base())),
       component.GetLastSymbol()};
 }

 NamedEntity FoldOperation(FoldingContext &context, NamedEntity &&x) {
   if (Component * c{x.UnwrapComponent()}) {
     return NamedEntity{FoldOperation(context, std::move(*c))};
   } else {
     return std::move(x);
   }
 }

 Triplet FoldOperation(FoldingContext &context, Triplet &&triplet) {
   MaybeExtentExpr lower{triplet.lower()};
   MaybeExtentExpr upper{triplet.upper()};
   return {Fold(context, std::move(lower)), Fold(context, std::move(upper)),
       Fold(context, triplet.stride())};
 }

 Subscript FoldOperation(FoldingContext &context, Subscript &&subscript) {
   return std::visit(common::visitors{
                         [&](IndirectSubscriptIntegerExpr &&expr) {
                           expr.value() = Fold(context, std::move(expr.value()));
                           return Subscript(std::move(expr));
                         },
                         [&](Triplet &&triplet) {
                           return Subscript(
                               FoldOperation(context, std::move(triplet)));
                         },
                     },
       std::move(subscript.u));
 }

 ArrayRef FoldOperation(FoldingContext &context, ArrayRef &&arrayRef) {
   NamedEntity base{FoldOperation(context, std::move(arrayRef.base()))};
   for (Subscript &subscript : arrayRef.subscript()) {
     subscript = FoldOperation(context, std::move(subscript));
   }
   return ArrayRef{std::move(base), std::move(arrayRef.subscript())};
 }

 CoarrayRef FoldOperation(FoldingContext &context, CoarrayRef &&coarrayRef) {
   std::vector<Subscript> subscript;
   for (Subscript x : coarrayRef.subscript()) {
     subscript.emplace_back(FoldOperation(context, std::move(x)));
   }
   std::vector<Expr<SubscriptInteger>> cosubscript;
   for (Expr<SubscriptInteger> x : coarrayRef.cosubscript()) {
     cosubscript.emplace_back(Fold(context, std::move(x)));
   }
   CoarrayRef folded{std::move(coarrayRef.base()), std::move(subscript),
       std::move(cosubscript)};
   if (std::optional<Expr<SomeInteger>> stat{coarrayRef.stat()}) {
     folded.set_stat(Fold(context, std::move(*stat)));
   }
   if (std::optional<Expr<SomeInteger>> team{coarrayRef.team()}) {
     folded.set_team(
         Fold(context, std::move(*team)), coarrayRef.teamIsTeamNumber());
   }
   return folded;
 }

 DataRef FoldOperation(FoldingContext &context, DataRef &&dataRef) {
   return std::visit(common::visitors{
                         [&](SymbolRef symbol) { return DataRef{*symbol}; },
                         [&](auto &&x) {
                           return DataRef{FoldOperation(context, std::move(x))};
                         },
                     },
       std::move(dataRef.u));
 }

 Substring FoldOperation(FoldingContext &context, Substring &&substring) {
   auto lower{Fold(context, substring.lower())};
   auto upper{Fold(context, substring.upper())};
   if (const DataRef * dataRef{substring.GetParentIf<DataRef>()}) {
     return Substring{FoldOperation(context, DataRef{*dataRef}),
         std::move(lower), std::move(upper)};
   } else {
     auto p{*substring.GetParentIf<StaticDataObject::Pointer>()};
     return Substring{std::move(p), std::move(lower), std::move(upper)};
   }
 }

 ComplexPart FoldOperation(FoldingContext &context, ComplexPart &&complexPart) {
   DataRef complex{complexPart.complex()};
   return ComplexPart{
       FoldOperation(context, std::move(complex)), complexPart.part()};
 }

 std::optional<std::int64_t> GetInt64Arg(
     const std::optional<ActualArgument> &arg) {
   if (const auto *intExpr{UnwrapExpr<Expr<SomeInteger>>(arg)}) {
     return ToInt64(*intExpr);
   } else {
     return std::nullopt;
   }
 }

 std::optional<std::int64_t> GetInt64ArgOr(
     const std::optional<ActualArgument> &arg, std::int64_t defaultValue) {
   if (!arg) {
     return defaultValue;
   } else if (const auto *intExpr{UnwrapExpr<Expr<SomeInteger>>(arg)}) {
     return ToInt64(*intExpr);
   } else {
     return std::nullopt;
   }
 }

 Expr<ImpliedDoIndex::Result> FoldOperation(
     FoldingContext &context, ImpliedDoIndex &&iDo) {
   if (std::optional<ConstantSubscript> value{context.GetImpliedDo(iDo.name)}) {
     return Expr<ImpliedDoIndex::Result>{*value};
   } else {
     return Expr<ImpliedDoIndex::Result>{std::move(iDo)};
   }
 }

 template class ExpressionBase<SomeDerived>;
 template class ExpressionBase<SomeType>;

 } // namespace Fortran::evaluate
	//===-- lib/Evaluate/fold.cpp ---------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#include "flang/Evaluate/fold.h"
	#include "fold-implementation.h"
	#include "flang/Evaluate/characteristics.h"

	namespace Fortran::evaluate {

	characteristics::TypeAndShape Fold(
	FoldingContext &context, characteristics::TypeAndShape &&x) {
	x.Rewrite(context);
	return std::move(x);
	}

	std::optional<Constant<SubscriptInteger>> GetConstantSubscript(
	FoldingContext &context, Subscript &ss, const NamedEntity &base, int dim) {
	ss = FoldOperation(context, std::move(ss));
	return std::visit(
	common::visitors{
	[](IndirectSubscriptIntegerExpr &expr)
	-> std::optional<Constant<SubscriptInteger>> {
	if (const auto *constant{
	UnwrapConstantValue<SubscriptInteger>(expr.value())}) {
	return *constant;
	} else {
	return std::nullopt;
	}
	},
	[&](Triplet &triplet) -> std::optional<Constant<SubscriptInteger>> {
	auto lower{triplet.lower()}, upper{triplet.upper()};
	std::optional<ConstantSubscript> stride{ToInt64(triplet.stride())};
	if (!lower) {
	lower = GetLowerBound(context, base, dim);
	}
	if (!upper) {
	upper =
	ComputeUpperBound(context, GetLowerBound(context, base, dim),
	GetExtent(context, base, dim));
	}
	auto lbi{ToInt64(lower)}, ubi{ToInt64(upper)};
	if (lbi && ubi && stride && *stride != 0) {
	std::vector<SubscriptInteger::Scalar> values;
	while ((stride > 0 && lbi <= *ubi) \|\|
	(stride < 0 && lbi >= *ubi)) {
	values.emplace_back(*lbi);
	lbi += stride;
	}
	return Constant<SubscriptInteger>{std::move(values),
	ConstantSubscripts{
	static_cast<ConstantSubscript>(values.size())}};
	} else {
	return std::nullopt;
	}
	},
	},
	ss.u);
	}

	Expr<SomeDerived> FoldOperation(
	FoldingContext &context, StructureConstructor &&structure) {
	StructureConstructor ctor{structure.derivedTypeSpec()};
	bool constantExtents{true};
	for (auto &&[symbol, value] : std::move(structure)) {
	auto expr{Fold(context, std::move(value.value()))};
	if (!IsPointer(symbol)) {
	bool ok{false};
	if (auto valueShape{GetConstantExtents(context, expr)}) {
	if (auto componentShape{GetConstantExtents(context, symbol)}) {
	if (GetRank(componentShape) > 0 && GetRank(valueShape) == 0) {
	expr = ScalarConstantExpander{std::move(*componentShape)}.Expand(
	std::move(expr));
	ok = expr.Rank() > 0;
	} else {
	ok = valueShape == componentShape;
	}
	}
	}
	if (!ok) {
	constantExtents = false;
	}
	}
	ctor.Add(symbol, Fold(context, std::move(expr)));
	}
	if (constantExtents && IsConstantExpr(ctor)) {
	return Expr<SomeDerived>{Constant<SomeDerived>{std::move(ctor)}};
	} else {
	return Expr<SomeDerived>{std::move(ctor)};
	}
	}

	Component FoldOperation(FoldingContext &context, Component &&component) {
	return {FoldOperation(context, std::move(component.base())),
	component.GetLastSymbol()};
	}

	NamedEntity FoldOperation(FoldingContext &context, NamedEntity &&x) {
	if (Component * c{x.UnwrapComponent()}) {
	return NamedEntity{FoldOperation(context, std::move(*c))};
	} else {
	return std::move(x);
	}
	}

	Triplet FoldOperation(FoldingContext &context, Triplet &&triplet) {
	MaybeExtentExpr lower{triplet.lower()};
	MaybeExtentExpr upper{triplet.upper()};
	return {Fold(context, std::move(lower)), Fold(context, std::move(upper)),
	Fold(context, triplet.stride())};
	}

	Subscript FoldOperation(FoldingContext &context, Subscript &&subscript) {
	return std::visit(common::visitors{
	[&](IndirectSubscriptIntegerExpr &&expr) {
	expr.value() = Fold(context, std::move(expr.value()));
	return Subscript(std::move(expr));
	},
	[&](Triplet &&triplet) {
	return Subscript(
	FoldOperation(context, std::move(triplet)));
	},
	},
	std::move(subscript.u));
	}

	ArrayRef FoldOperation(FoldingContext &context, ArrayRef &&arrayRef) {
	NamedEntity base{FoldOperation(context, std::move(arrayRef.base()))};
	for (Subscript &subscript : arrayRef.subscript()) {
	subscript = FoldOperation(context, std::move(subscript));
	}
	return ArrayRef{std::move(base), std::move(arrayRef.subscript())};
	}

	CoarrayRef FoldOperation(FoldingContext &context, CoarrayRef &&coarrayRef) {
	std::vector<Subscript> subscript;
	for (Subscript x : coarrayRef.subscript()) {
	subscript.emplace_back(FoldOperation(context, std::move(x)));
	}
	std::vector<Expr<SubscriptInteger>> cosubscript;
	for (Expr<SubscriptInteger> x : coarrayRef.cosubscript()) {
	cosubscript.emplace_back(Fold(context, std::move(x)));
	}
	CoarrayRef folded{std::move(coarrayRef.base()), std::move(subscript),
	std::move(cosubscript)};
	if (std::optional<Expr<SomeInteger>> stat{coarrayRef.stat()}) {
	folded.set_stat(Fold(context, std::move(*stat)));
	}
	if (std::optional<Expr<SomeInteger>> team{coarrayRef.team()}) {
	folded.set_team(
	Fold(context, std::move(*team)), coarrayRef.teamIsTeamNumber());
	}
	return folded;
	}

	DataRef FoldOperation(FoldingContext &context, DataRef &&dataRef) {
	return std::visit(common::visitors{
	[&](SymbolRef symbol) { return DataRef{*symbol}; },
	[&](auto &&x) {
	return DataRef{FoldOperation(context, std::move(x))};
	},
	},
	std::move(dataRef.u));
	}

	Substring FoldOperation(FoldingContext &context, Substring &&substring) {
	auto lower{Fold(context, substring.lower())};
	auto upper{Fold(context, substring.upper())};
	if (const DataRef * dataRef{substring.GetParentIf<DataRef>()}) {
	return Substring{FoldOperation(context, DataRef{*dataRef}),
	std::move(lower), std::move(upper)};
	} else {
	auto p{*substring.GetParentIf<StaticDataObject::Pointer>()};
	return Substring{std::move(p), std::move(lower), std::move(upper)};
	}
	}

	ComplexPart FoldOperation(FoldingContext &context, ComplexPart &&complexPart) {
	DataRef complex{complexPart.complex()};
	return ComplexPart{
	FoldOperation(context, std::move(complex)), complexPart.part()};
	}

	std::optional<std::int64_t> GetInt64Arg(
	const std::optional<ActualArgument> &arg) {
	if (const auto *intExpr{UnwrapExpr<Expr<SomeInteger>>(arg)}) {
	return ToInt64(*intExpr);
	} else {
	return std::nullopt;
	}
	}

	std::optional<std::int64_t> GetInt64ArgOr(
	const std::optional<ActualArgument> &arg, std::int64_t defaultValue) {
	if (!arg) {
	return defaultValue;
	} else if (const auto *intExpr{UnwrapExpr<Expr<SomeInteger>>(arg)}) {
	return ToInt64(*intExpr);
	} else {
	return std::nullopt;
	}
	}

	Expr<ImpliedDoIndex::Result> FoldOperation(
	FoldingContext &context, ImpliedDoIndex &&iDo) {
	if (std::optional<ConstantSubscript> value{context.GetImpliedDo(iDo.name)}) {
	return Expr<ImpliedDoIndex::Result>{*value};
	} else {
	return Expr<ImpliedDoIndex::Result>{std::move(iDo)};
	}
	}

	template class ExpressionBase<SomeDerived>;
	template class ExpressionBase<SomeType>;

	} // namespace Fortran::evaluate