lib/Parser/parse-tree.cpp - llvm-project/flang - Git at Google

 //===-- lib/Parser/parse-tree.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/Parser/parse-tree.h"
 #include "flang/Common/idioms.h"
 #include "flang/Common/indirection.h"
 #include "flang/Parser/tools.h"
 #include "flang/Parser/user-state.h"
 #include "llvm/Support/raw_ostream.h"
 #include <algorithm>

 namespace Fortran::parser {

 // R867
 ImportStmt::ImportStmt(common::ImportKind &&k, std::list<Name> &&n)
     : kind{k}, names(std::move(n)) {
   CHECK(kind == common::ImportKind::Default ||
       kind == common::ImportKind::Only || names.empty());
 }

 // R873
 CommonStmt::CommonStmt(std::optional<Name> &&name,
     std::list<CommonBlockObject> &&objects, std::list<Block> &&others) {
   blocks.emplace_front(std::move(name), std::move(objects));
   blocks.splice(blocks.end(), std::move(others));
 }

 // R901 designator
 bool Designator::EndsInBareName() const {
   return std::visit(
       common::visitors{
           [](const DataRef &dr) {
             return std::holds_alternative<Name>(dr.u) ||
                 std::holds_alternative<common::Indirection<StructureComponent>>(
                     dr.u);
           },
           [](const Substring &) { return false; },
       },
       u);
 }

 // R911 data-ref -> part-ref [% part-ref]...
 DataRef::DataRef(std::list<PartRef> &&prl) : u{std::move(prl.front().name)} {
   for (bool first{true}; !prl.empty(); first = false, prl.pop_front()) {
     PartRef &pr{prl.front()};
     if (!first) {
       u = common::Indirection<StructureComponent>::Make(
           std::move(*this), std::move(pr.name));
     }
     if (!pr.subscripts.empty()) {
       u = common::Indirection<ArrayElement>::Make(
           std::move(*this), std::move(pr.subscripts));
     }
     if (pr.imageSelector) {
       u = common::Indirection<CoindexedNamedObject>::Make(
           std::move(*this), std::move(*pr.imageSelector));
     }
   }
 }

 // R1001 - R1022 expression
 Expr::Expr(Designator &&x)
     : u{common::Indirection<Designator>::Make(std::move(x))} {}
 Expr::Expr(FunctionReference &&x)
     : u{common::Indirection<FunctionReference>::Make(std::move(x))} {}

 const std::optional<LoopControl> &DoConstruct::GetLoopControl() const {
   const NonLabelDoStmt &doStmt{
       std::get<Statement<NonLabelDoStmt>>(t).statement};
   const std::optional<LoopControl> &control{
       std::get<std::optional<LoopControl>>(doStmt.t)};
   return control;
 }

 bool DoConstruct::IsDoNormal() const {
   const std::optional<LoopControl> &control{GetLoopControl()};
   return control && std::holds_alternative<LoopControl::Bounds>(control->u);
 }

 bool DoConstruct::IsDoWhile() const {
   const std::optional<LoopControl> &control{GetLoopControl()};
   return control && std::holds_alternative<ScalarLogicalExpr>(control->u);
 }

 bool DoConstruct::IsDoConcurrent() const {
   const std::optional<LoopControl> &control{GetLoopControl()};
   return control && std::holds_alternative<LoopControl::Concurrent>(control->u);
 }

 static Designator MakeArrayElementRef(
     const Name &name, std::list<Expr> &&subscripts) {
   ArrayElement arrayElement{DataRef{Name{name}}, std::list<SectionSubscript>{}};
   for (Expr &expr : subscripts) {
     arrayElement.subscripts.push_back(
         SectionSubscript{Integer{common::Indirection{std::move(expr)}}});
   }
   return Designator{DataRef{common::Indirection{std::move(arrayElement)}}};
 }

 static Designator MakeArrayElementRef(
     StructureComponent &&sc, std::list<Expr> &&subscripts) {
   ArrayElement arrayElement{DataRef{common::Indirection{std::move(sc)}},
       std::list<SectionSubscript>{}};
   for (Expr &expr : subscripts) {
     arrayElement.subscripts.push_back(
         SectionSubscript{Integer{common::Indirection{std::move(expr)}}});
   }
   return Designator{DataRef{common::Indirection{std::move(arrayElement)}}};
 }

 // Set source in any type of node that has it.
 template <typename T> T WithSource(CharBlock source, T &&x) {
   x.source = source;
   return std::move(x);
 }

 static Expr ActualArgToExpr(ActualArgSpec &arg) {
   return std::visit(
       common::visitors{
           [&](common::Indirection<Expr> &y) { return std::move(y.value()); },
           [&](common::Indirection<Variable> &y) {
             return std::visit(
                 common::visitors{
                     [&](common::Indirection<Designator> &z) {
                       return WithSource(
                           z.value().source, Expr{std::move(z.value())});
                     },
                     [&](common::Indirection<FunctionReference> &z) {
                       return WithSource(
                           z.value().v.source, Expr{std::move(z.value())});
                     },
                 },
                 y.value().u);
           },
           [&](auto &) -> Expr { common::die("unexpected type"); },
       },
       std::get<ActualArg>(arg.t).u);
 }

 Designator FunctionReference::ConvertToArrayElementRef() {
   std::list<Expr> args;
   for (auto &arg : std::get<std::list<ActualArgSpec>>(v.t)) {
     args.emplace_back(ActualArgToExpr(arg));
   }
   return std::visit(
       common::visitors{
           [&](const Name &name) {
             return WithSource(
                 v.source, MakeArrayElementRef(name, std::move(args)));
           },
           [&](ProcComponentRef &pcr) {
             return WithSource(v.source,
                 MakeArrayElementRef(std::move(pcr.v.thing), std::move(args)));
           },
       },
       std::get<ProcedureDesignator>(v.t).u);
 }

 StructureConstructor FunctionReference::ConvertToStructureConstructor(
     const semantics::DerivedTypeSpec &derived) {
   Name name{std::get<parser::Name>(std::get<ProcedureDesignator>(v.t).u)};
   std::list<ComponentSpec> components;
   for (auto &arg : std::get<std::list<ActualArgSpec>>(v.t)) {
     std::optional<Keyword> keyword;
     if (auto &kw{std::get<std::optional<Keyword>>(arg.t)}) {
       keyword.emplace(Keyword{Name{kw->v}});
     }
     components.emplace_back(
         std::move(keyword), ComponentDataSource{ActualArgToExpr(arg)});
   }
   DerivedTypeSpec spec{std::move(name), std::list<TypeParamSpec>{}};
   spec.derivedTypeSpec = &derived;
   return StructureConstructor{std::move(spec), std::move(components)};
 }

 StructureConstructor ArrayElement::ConvertToStructureConstructor(
     const semantics::DerivedTypeSpec &derived) {
   Name name{std::get<parser::Name>(base.u)};
   std::list<ComponentSpec> components;
   for (auto &subscript : subscripts) {
     components.emplace_back(std::optional<Keyword>{},
         ComponentDataSource{std::move(*Unwrap<Expr>(subscript))});
   }
   DerivedTypeSpec spec{std::move(name), std::list<TypeParamSpec>{}};
   spec.derivedTypeSpec = &derived;
   return StructureConstructor{std::move(spec), std::move(components)};
 }

 Substring ArrayElement::ConvertToSubstring() {
   auto iter{subscripts.begin()};
   CHECK(iter != subscripts.end());
   auto &triplet{std::get<SubscriptTriplet>(iter->u)};
   CHECK(!std::get<2>(triplet.t));
   CHECK(++iter == subscripts.end());
   return Substring{std::move(base),
       SubstringRange{std::get<0>(std::move(triplet.t)),
           std::get<1>(std::move(triplet.t))}};
 }

 // R1544 stmt-function-stmt
 // Convert this stmt-function-stmt to an array element assignment statement.
 Statement<ActionStmt> StmtFunctionStmt::ConvertToAssignment() {
   auto &funcName{std::get<Name>(t)};
   auto &funcArgs{std::get<std::list<Name>>(t)};
   auto &funcExpr{std::get<Scalar<Expr>>(t).thing};
   CharBlock source{funcName.source};
   std::list<Expr> subscripts;
   for (Name &arg : funcArgs) {
     subscripts.push_back(WithSource(arg.source,
         Expr{common::Indirection{
             WithSource(arg.source, Designator{DataRef{Name{arg}}})}}));
     source.ExtendToCover(arg.source);
   }
   // extend source to include closing paren
   if (funcArgs.empty()) {
     CHECK(*source.end() == '(');
     source = CharBlock{source.begin(), source.end() + 1};
   }
   CHECK(*source.end() == ')');
   source = CharBlock{source.begin(), source.end() + 1};
   auto variable{Variable{common::Indirection{WithSource(
       source, MakeArrayElementRef(funcName, std::move(subscripts)))}}};
   return Statement{std::nullopt,
       ActionStmt{common::Indirection{
           AssignmentStmt{std::move(variable), std::move(funcExpr)}}}};
 }

 CharBlock Variable::GetSource() const {
   return std::visit(
       common::visitors{
           [&](const common::Indirection<Designator> &des) {
             return des.value().source;
           },
           [&](const common::Indirection<parser::FunctionReference> &call) {
             return call.value().v.source;
           },
       },
       u);
 }

 llvm::raw_ostream &operator<<(llvm::raw_ostream &os, const Name &x) {
   return os << x.ToString();
 }
 } // namespace Fortran::parser
	//===-- lib/Parser/parse-tree.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/Parser/parse-tree.h"
	#include "flang/Common/idioms.h"
	#include "flang/Common/indirection.h"
	#include "flang/Parser/tools.h"
	#include "flang/Parser/user-state.h"
	#include "llvm/Support/raw_ostream.h"
	#include <algorithm>

	namespace Fortran::parser {

	// R867
	ImportStmt::ImportStmt(common::ImportKind &&k, std::list<Name> &&n)
	: kind{k}, names(std::move(n)) {
	CHECK(kind == common::ImportKind::Default \|\|
	kind == common::ImportKind::Only \|\| names.empty());
	}

	// R873
	CommonStmt::CommonStmt(std::optional<Name> &&name,
	std::list<CommonBlockObject> &&objects, std::list<Block> &&others) {
	blocks.emplace_front(std::move(name), std::move(objects));
	blocks.splice(blocks.end(), std::move(others));
	}

	// R901 designator
	bool Designator::EndsInBareName() const {
	return std::visit(
	common::visitors{
	[](const DataRef &dr) {
	return std::holds_alternative<Name>(dr.u) \|\|
	std::holds_alternative<common::Indirection<StructureComponent>>(
	dr.u);
	},
	[](const Substring &) { return false; },
	},
	u);
	}

	// R911 data-ref -> part-ref [% part-ref]...
	DataRef::DataRef(std::list<PartRef> &&prl) : u{std::move(prl.front().name)} {
	for (bool first{true}; !prl.empty(); first = false, prl.pop_front()) {
	PartRef &pr{prl.front()};
	if (!first) {
	u = common::Indirection<StructureComponent>::Make(
	std::move(*this), std::move(pr.name));
	}
	if (!pr.subscripts.empty()) {
	u = common::Indirection<ArrayElement>::Make(
	std::move(*this), std::move(pr.subscripts));
	}
	if (pr.imageSelector) {
	u = common::Indirection<CoindexedNamedObject>::Make(
	std::move(this), std::move(pr.imageSelector));
	}
	}
	}

	// R1001 - R1022 expression
	Expr::Expr(Designator &&x)
	: u{common::Indirection<Designator>::Make(std::move(x))} {}
	Expr::Expr(FunctionReference &&x)
	: u{common::Indirection<FunctionReference>::Make(std::move(x))} {}

	const std::optional<LoopControl> &DoConstruct::GetLoopControl() const {
	const NonLabelDoStmt &doStmt{
	std::get<Statement<NonLabelDoStmt>>(t).statement};
	const std::optional<LoopControl> &control{
	std::get<std::optional<LoopControl>>(doStmt.t)};
	return control;
	}

	bool DoConstruct::IsDoNormal() const {
	const std::optional<LoopControl> &control{GetLoopControl()};
	return control && std::holds_alternative<LoopControl::Bounds>(control->u);
	}

	bool DoConstruct::IsDoWhile() const {
	const std::optional<LoopControl> &control{GetLoopControl()};
	return control && std::holds_alternative<ScalarLogicalExpr>(control->u);
	}

	bool DoConstruct::IsDoConcurrent() const {
	const std::optional<LoopControl> &control{GetLoopControl()};
	return control && std::holds_alternative<LoopControl::Concurrent>(control->u);
	}

	static Designator MakeArrayElementRef(
	const Name &name, std::list<Expr> &&subscripts) {
	ArrayElement arrayElement{DataRef{Name{name}}, std::list<SectionSubscript>{}};
	for (Expr &expr : subscripts) {
	arrayElement.subscripts.push_back(
	SectionSubscript{Integer{common::Indirection{std::move(expr)}}});
	}
	return Designator{DataRef{common::Indirection{std::move(arrayElement)}}};
	}

	static Designator MakeArrayElementRef(
	StructureComponent &&sc, std::list<Expr> &&subscripts) {
	ArrayElement arrayElement{DataRef{common::Indirection{std::move(sc)}},
	std::list<SectionSubscript>{}};
	for (Expr &expr : subscripts) {
	arrayElement.subscripts.push_back(
	SectionSubscript{Integer{common::Indirection{std::move(expr)}}});
	}
	return Designator{DataRef{common::Indirection{std::move(arrayElement)}}};
	}

	// Set source in any type of node that has it.
	template <typename T> T WithSource(CharBlock source, T &&x) {
	x.source = source;
	return std::move(x);
	}

	static Expr ActualArgToExpr(ActualArgSpec &arg) {
	return std::visit(
	common::visitors{
	[&](common::Indirection<Expr> &y) { return std::move(y.value()); },
	[&](common::Indirection<Variable> &y) {
	return std::visit(
	common::visitors{
	[&](common::Indirection<Designator> &z) {
	return WithSource(
	z.value().source, Expr{std::move(z.value())});
	},
	[&](common::Indirection<FunctionReference> &z) {
	return WithSource(
	z.value().v.source, Expr{std::move(z.value())});
	},
	},
	y.value().u);
	},
	[&](auto &) -> Expr { common::die("unexpected type"); },
	},
	std::get<ActualArg>(arg.t).u);
	}

	Designator FunctionReference::ConvertToArrayElementRef() {
	std::list<Expr> args;
	for (auto &arg : std::get<std::list<ActualArgSpec>>(v.t)) {
	args.emplace_back(ActualArgToExpr(arg));
	}
	return std::visit(
	common::visitors{
	[&](const Name &name) {
	return WithSource(
	v.source, MakeArrayElementRef(name, std::move(args)));
	},
	[&](ProcComponentRef &pcr) {
	return WithSource(v.source,
	MakeArrayElementRef(std::move(pcr.v.thing), std::move(args)));
	},
	},
	std::get<ProcedureDesignator>(v.t).u);
	}

	StructureConstructor FunctionReference::ConvertToStructureConstructor(
	const semantics::DerivedTypeSpec &derived) {
	Name name{std::get<parser::Name>(std::get<ProcedureDesignator>(v.t).u)};
	std::list<ComponentSpec> components;
	for (auto &arg : std::get<std::list<ActualArgSpec>>(v.t)) {
	std::optional<Keyword> keyword;
	if (auto &kw{std::get<std::optional<Keyword>>(arg.t)}) {
	keyword.emplace(Keyword{Name{kw->v}});
	}
	components.emplace_back(
	std::move(keyword), ComponentDataSource{ActualArgToExpr(arg)});
	}
	DerivedTypeSpec spec{std::move(name), std::list<TypeParamSpec>{}};
	spec.derivedTypeSpec = &derived;
	return StructureConstructor{std::move(spec), std::move(components)};
	}

	StructureConstructor ArrayElement::ConvertToStructureConstructor(
	const semantics::DerivedTypeSpec &derived) {
	Name name{std::get<parser::Name>(base.u)};
	std::list<ComponentSpec> components;
	for (auto &subscript : subscripts) {
	components.emplace_back(std::optional<Keyword>{},
	ComponentDataSource{std::move(*Unwrap<Expr>(subscript))});
	}
	DerivedTypeSpec spec{std::move(name), std::list<TypeParamSpec>{}};
	spec.derivedTypeSpec = &derived;
	return StructureConstructor{std::move(spec), std::move(components)};
	}

	Substring ArrayElement::ConvertToSubstring() {
	auto iter{subscripts.begin()};
	CHECK(iter != subscripts.end());
	auto &triplet{std::get<SubscriptTriplet>(iter->u)};
	CHECK(!std::get<2>(triplet.t));
	CHECK(++iter == subscripts.end());
	return Substring{std::move(base),
	SubstringRange{std::get<0>(std::move(triplet.t)),
	std::get<1>(std::move(triplet.t))}};
	}

	// R1544 stmt-function-stmt
	// Convert this stmt-function-stmt to an array element assignment statement.
	Statement<ActionStmt> StmtFunctionStmt::ConvertToAssignment() {
	auto &funcName{std::get<Name>(t)};
	auto &funcArgs{std::get<std::list<Name>>(t)};
	auto &funcExpr{std::get<Scalar<Expr>>(t).thing};
	CharBlock source{funcName.source};
	std::list<Expr> subscripts;
	for (Name &arg : funcArgs) {
	subscripts.push_back(WithSource(arg.source,
	Expr{common::Indirection{
	WithSource(arg.source, Designator{DataRef{Name{arg}}})}}));
	source.ExtendToCover(arg.source);
	}
	// extend source to include closing paren
	if (funcArgs.empty()) {
	CHECK(*source.end() == '(');
	source = CharBlock{source.begin(), source.end() + 1};
	}
	CHECK(*source.end() == ')');
	source = CharBlock{source.begin(), source.end() + 1};
	auto variable{Variable{common::Indirection{WithSource(
	source, MakeArrayElementRef(funcName, std::move(subscripts)))}}};
	return Statement{std::nullopt,
	ActionStmt{common::Indirection{
	AssignmentStmt{std::move(variable), std::move(funcExpr)}}}};
	}

	CharBlock Variable::GetSource() const {
	return std::visit(
	common::visitors{
	[&](const common::Indirection<Designator> &des) {
	return des.value().source;
	},
	[&](const common::Indirection<parser::FunctionReference> &call) {
	return call.value().v.source;
	},
	},
	u);
	}

	llvm::raw_ostream &operator<<(llvm::raw_ostream &os, const Name &x) {
	return os << x.ToString();
	}
	} // namespace Fortran::parser