include/flang/Parser/parse-state.h - llvm-project/flang - Git at Google

 //===-- include/flang/Parser/parse-state.h ----------------------*- C++ -*-===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #ifndef FORTRAN_PARSER_PARSE_STATE_H_
 #define FORTRAN_PARSER_PARSE_STATE_H_

 // Defines the ParseState type used as the argument for every parser's
 // Parse member or static function.  Tracks source provenance, context,
 // accumulated messages, and an arbitrary UserState instance for parsing
 // attempts.  Must be efficient to duplicate and assign for backtracking
 // and recovery during parsing!

 #include "user-state.h"
 #include "flang/Common/Fortran-features.h"
 #include "flang/Common/idioms.h"
 #include "flang/Parser/characters.h"
 #include "flang/Parser/message.h"
 #include "flang/Parser/provenance.h"
 #include <cstddef>
 #include <cstring>
 #include <list>
 #include <memory>
 #include <optional>
 #include <utility>

 namespace Fortran::parser {

 using common::LanguageFeature;

 class ParseState {
 public:
   ParseState(const CookedSource &cooked)
       : p_{cooked.AsCharBlock().begin()}, limit_{cooked.AsCharBlock().end()} {}
   ParseState(const ParseState &that)
       : p_{that.p_}, limit_{that.limit_}, context_{that.context_},
         userState_{that.userState_}, inFixedForm_{that.inFixedForm_},
         anyErrorRecovery_{that.anyErrorRecovery_},
         anyConformanceViolation_{that.anyConformanceViolation_},
         deferMessages_{that.deferMessages_},
         anyDeferredMessages_{that.anyDeferredMessages_},
         anyTokenMatched_{that.anyTokenMatched_} {}
   ParseState(ParseState &&that)
       : p_{that.p_}, limit_{that.limit_}, messages_{std::move(that.messages_)},
         context_{std::move(that.context_)}, userState_{that.userState_},
         inFixedForm_{that.inFixedForm_},
         anyErrorRecovery_{that.anyErrorRecovery_},
         anyConformanceViolation_{that.anyConformanceViolation_},
         deferMessages_{that.deferMessages_},
         anyDeferredMessages_{that.anyDeferredMessages_},
         anyTokenMatched_{that.anyTokenMatched_} {}
   ParseState &operator=(const ParseState &that) {
     p_ = that.p_, limit_ = that.limit_, context_ = that.context_;
     userState_ = that.userState_, inFixedForm_ = that.inFixedForm_;
     anyErrorRecovery_ = that.anyErrorRecovery_;
     anyConformanceViolation_ = that.anyConformanceViolation_;
     deferMessages_ = that.deferMessages_;
     anyDeferredMessages_ = that.anyDeferredMessages_;
     anyTokenMatched_ = that.anyTokenMatched_;
     return *this;
   }
   ParseState &operator=(ParseState &&that) {
     p_ = that.p_, limit_ = that.limit_, messages_ = std::move(that.messages_);
     context_ = std::move(that.context_);
     userState_ = that.userState_, inFixedForm_ = that.inFixedForm_;
     anyErrorRecovery_ = that.anyErrorRecovery_;
     anyConformanceViolation_ = that.anyConformanceViolation_;
     deferMessages_ = that.deferMessages_;
     anyDeferredMessages_ = that.anyDeferredMessages_;
     anyTokenMatched_ = that.anyTokenMatched_;
     return *this;
   }

   const Messages &messages() const { return messages_; }
   Messages &messages() { return messages_; }

   const Message::Reference &context() const { return context_; }
   Message::Reference &context() { return context_; }

   bool anyErrorRecovery() const { return anyErrorRecovery_; }
   void set_anyErrorRecovery() { anyErrorRecovery_ = true; }

   bool anyConformanceViolation() const { return anyConformanceViolation_; }
   void set_anyConformanceViolation() { anyConformanceViolation_ = true; }

   UserState *userState() const { return userState_; }
   ParseState &set_userState(UserState *u) {
     userState_ = u;
     return *this;
   }

   bool inFixedForm() const { return inFixedForm_; }
   ParseState &set_inFixedForm(bool yes = true) {
     inFixedForm_ = yes;
     return *this;
   }

   bool deferMessages() const { return deferMessages_; }
   ParseState &set_deferMessages(bool yes = true) {
     deferMessages_ = yes;
     return *this;
   }

   bool anyDeferredMessages() const { return anyDeferredMessages_; }
   ParseState &set_anyDeferredMessages(bool yes = true) {
     anyDeferredMessages_ = yes;
     return *this;
   }

   bool anyTokenMatched() const { return anyTokenMatched_; }
   ParseState &set_anyTokenMatched(bool yes = true) {
     anyTokenMatched_ = yes;
     return *this;
   }

   const char *GetLocation() const { return p_; }

   void PushContext(MessageFixedText text) {
     auto m{new Message{p_, text}}; // reference-counted
     m->SetContext(context_.get());
     context_ = Message::Reference{m};
   }

   void PopContext() {
     CHECK(context_);
     context_ = context_->attachment();
   }

   template <typename... A> void Say(CharBlock range, A &&...args) {
     if (deferMessages_) {
       anyDeferredMessages_ = true;
     } else {
       messages_.Say(range, std::forward<A>(args)...).SetContext(context_.get());
     }
   }
   template <typename... A> void Say(const MessageFixedText &text, A &&...args) {
     Say(p_, text, std::forward<A>(args)...);
   }
   template <typename... A>
   void Say(const MessageExpectedText &text, A &&...args) {
     Say(p_, text, std::forward<A>(args)...);
   }

   void Nonstandard(LanguageFeature lf, const MessageFixedText &msg) {
     Nonstandard(p_, lf, msg);
   }
   void Nonstandard(
       CharBlock range, LanguageFeature lf, const MessageFixedText &msg) {
     anyConformanceViolation_ = true;
     if (userState_ && userState_->features().ShouldWarn(lf)) {
       Say(range, msg);
     }
   }
   bool IsNonstandardOk(LanguageFeature lf, const MessageFixedText &msg) {
     if (userState_ && !userState_->features().IsEnabled(lf)) {
       return false;
     }
     Nonstandard(lf, msg);
     return true;
   }

   bool IsAtEnd() const { return p_ >= limit_; }

   const char *UncheckedAdvance(std::size_t n = 1) {
     const char *result{p_};
     p_ += n;
     return result;
   }

   std::optional<const char *> GetNextChar() {
     if (p_ < limit_) {
       return UncheckedAdvance();
     } else {
       return std::nullopt;
     }
   }

   std::optional<const char *> PeekAtNextChar() const {
     if (p_ < limit_) {
       return p_;
     } else {
       return std::nullopt;
     }
   }

   std::size_t BytesRemaining() const {
     std::size_t remain = limit_ - p_;
     return remain;
   }

   void CombineFailedParses(ParseState &&prev) {
     if (prev.anyTokenMatched_) {
       if (!anyTokenMatched_ || prev.p_ > p_) {
         anyTokenMatched_ = true;
         p_ = prev.p_;
         messages_ = std::move(prev.messages_);
       } else if (prev.p_ == p_) {
         messages_.Merge(std::move(prev.messages_));
       }
     }
     anyDeferredMessages_ |= prev.anyDeferredMessages_;
     anyConformanceViolation_ |= prev.anyConformanceViolation_;
     anyErrorRecovery_ |= prev.anyErrorRecovery_;
   }

 private:
   // Text remaining to be parsed
   const char *p_{nullptr}, *limit_{nullptr};

   // Accumulated messages and current nested context.
   Messages messages_;
   Message::Reference context_;

   UserState *userState_{nullptr};

   bool inFixedForm_{false};
   bool anyErrorRecovery_{false};
   bool anyConformanceViolation_{false};
   bool deferMessages_{false};
   bool anyDeferredMessages_{false};
   bool anyTokenMatched_{false};
   // NOTE: Any additions or modifications to these data members must also be
   // reflected in the copy and move constructors defined at the top of this
   // class definition!
 };
 } // namespace Fortran::parser
 #endif // FORTRAN_PARSER_PARSE_STATE_H_
	//===-- include/flang/Parser/parse-state.h ----------------------- C++ --===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#ifndef FORTRAN_PARSER_PARSE_STATE_H_
	#define FORTRAN_PARSER_PARSE_STATE_H_

	// Defines the ParseState type used as the argument for every parser's
	// Parse member or static function. Tracks source provenance, context,
	// accumulated messages, and an arbitrary UserState instance for parsing
	// attempts. Must be efficient to duplicate and assign for backtracking
	// and recovery during parsing!

	#include "user-state.h"
	#include "flang/Common/Fortran-features.h"
	#include "flang/Common/idioms.h"
	#include "flang/Parser/characters.h"
	#include "flang/Parser/message.h"
	#include "flang/Parser/provenance.h"
	#include <cstddef>
	#include <cstring>
	#include <list>
	#include <memory>
	#include <optional>
	#include <utility>

	namespace Fortran::parser {

	using common::LanguageFeature;

	class ParseState {
	public:
	ParseState(const CookedSource &cooked)
	: p_{cooked.AsCharBlock().begin()}, limit_{cooked.AsCharBlock().end()} {}
	ParseState(const ParseState &that)
	: p_{that.p_}, limit_{that.limit_}, context_{that.context_},
	userState_{that.userState_}, inFixedForm_{that.inFixedForm_},
	anyErrorRecovery_{that.anyErrorRecovery_},
	anyConformanceViolation_{that.anyConformanceViolation_},
	deferMessages_{that.deferMessages_},
	anyDeferredMessages_{that.anyDeferredMessages_},
	anyTokenMatched_{that.anyTokenMatched_} {}
	ParseState(ParseState &&that)
	: p_{that.p_}, limit_{that.limit_}, messages_{std::move(that.messages_)},
	context_{std::move(that.context_)}, userState_{that.userState_},
	inFixedForm_{that.inFixedForm_},
	anyErrorRecovery_{that.anyErrorRecovery_},
	anyConformanceViolation_{that.anyConformanceViolation_},
	deferMessages_{that.deferMessages_},
	anyDeferredMessages_{that.anyDeferredMessages_},
	anyTokenMatched_{that.anyTokenMatched_} {}
	ParseState &operator=(const ParseState &that) {
	p_ = that.p_, limit_ = that.limit_, context_ = that.context_;
	userState_ = that.userState_, inFixedForm_ = that.inFixedForm_;
	anyErrorRecovery_ = that.anyErrorRecovery_;
	anyConformanceViolation_ = that.anyConformanceViolation_;
	deferMessages_ = that.deferMessages_;
	anyDeferredMessages_ = that.anyDeferredMessages_;
	anyTokenMatched_ = that.anyTokenMatched_;
	return *this;
	}
	ParseState &operator=(ParseState &&that) {
	p_ = that.p_, limit_ = that.limit_, messages_ = std::move(that.messages_);
	context_ = std::move(that.context_);
	userState_ = that.userState_, inFixedForm_ = that.inFixedForm_;
	anyErrorRecovery_ = that.anyErrorRecovery_;
	anyConformanceViolation_ = that.anyConformanceViolation_;
	deferMessages_ = that.deferMessages_;
	anyDeferredMessages_ = that.anyDeferredMessages_;
	anyTokenMatched_ = that.anyTokenMatched_;
	return *this;
	}

	const Messages &messages() const { return messages_; }
	Messages &messages() { return messages_; }

	const Message::Reference &context() const { return context_; }
	Message::Reference &context() { return context_; }

	bool anyErrorRecovery() const { return anyErrorRecovery_; }
	void set_anyErrorRecovery() { anyErrorRecovery_ = true; }

	bool anyConformanceViolation() const { return anyConformanceViolation_; }
	void set_anyConformanceViolation() { anyConformanceViolation_ = true; }

	UserState *userState() const { return userState_; }
	ParseState &set_userState(UserState *u) {
	userState_ = u;
	return *this;
	}

	bool inFixedForm() const { return inFixedForm_; }
	ParseState &set_inFixedForm(bool yes = true) {
	inFixedForm_ = yes;
	return *this;
	}

	bool deferMessages() const { return deferMessages_; }
	ParseState &set_deferMessages(bool yes = true) {
	deferMessages_ = yes;
	return *this;
	}

	bool anyDeferredMessages() const { return anyDeferredMessages_; }
	ParseState &set_anyDeferredMessages(bool yes = true) {
	anyDeferredMessages_ = yes;
	return *this;
	}

	bool anyTokenMatched() const { return anyTokenMatched_; }
	ParseState &set_anyTokenMatched(bool yes = true) {
	anyTokenMatched_ = yes;
	return *this;
	}

	const char *GetLocation() const { return p_; }

	void PushContext(MessageFixedText text) {
	auto m{new Message{p_, text}}; // reference-counted
	m->SetContext(context_.get());
	context_ = Message::Reference{m};
	}

	void PopContext() {
	CHECK(context_);
	context_ = context_->attachment();
	}

	template <typename... A> void Say(CharBlock range, A &&...args) {
	if (deferMessages_) {
	anyDeferredMessages_ = true;
	} else {
	messages_.Say(range, std::forward<A>(args)...).SetContext(context_.get());
	}
	}
	template <typename... A> void Say(const MessageFixedText &text, A &&...args) {
	Say(p_, text, std::forward<A>(args)...);
	}
	template <typename... A>
	void Say(const MessageExpectedText &text, A &&...args) {
	Say(p_, text, std::forward<A>(args)...);
	}

	void Nonstandard(LanguageFeature lf, const MessageFixedText &msg) {
	Nonstandard(p_, lf, msg);
	}
	void Nonstandard(
	CharBlock range, LanguageFeature lf, const MessageFixedText &msg) {
	anyConformanceViolation_ = true;
	if (userState_ && userState_->features().ShouldWarn(lf)) {
	Say(range, msg);
	}
	}
	bool IsNonstandardOk(LanguageFeature lf, const MessageFixedText &msg) {
	if (userState_ && !userState_->features().IsEnabled(lf)) {
	return false;
	}
	Nonstandard(lf, msg);
	return true;
	}

	bool IsAtEnd() const { return p_ >= limit_; }

	const char *UncheckedAdvance(std::size_t n = 1) {
	const char *result{p_};
	p_ += n;
	return result;
	}

	std::optional<const char *> GetNextChar() {
	if (p_ < limit_) {
	return UncheckedAdvance();
	} else {
	return std::nullopt;
	}
	}

	std::optional<const char *> PeekAtNextChar() const {
	if (p_ < limit_) {
	return p_;
	} else {
	return std::nullopt;
	}
	}

	std::size_t BytesRemaining() const {
	std::size_t remain = limit_ - p_;
	return remain;
	}

	void CombineFailedParses(ParseState &&prev) {
	if (prev.anyTokenMatched_) {
	if (!anyTokenMatched_ \|\| prev.p_ > p_) {
	anyTokenMatched_ = true;
	p_ = prev.p_;
	messages_ = std::move(prev.messages_);
	} else if (prev.p_ == p_) {
	messages_.Merge(std::move(prev.messages_));
	}
	}
	anyDeferredMessages_ \|= prev.anyDeferredMessages_;
	anyConformanceViolation_ \|= prev.anyConformanceViolation_;
	anyErrorRecovery_ \|= prev.anyErrorRecovery_;
	}

	private:
	// Text remaining to be parsed
	const char p_{nullptr}, limit_{nullptr};

	// Accumulated messages and current nested context.
	Messages messages_;
	Message::Reference context_;

	UserState *userState_{nullptr};

	bool inFixedForm_{false};
	bool anyErrorRecovery_{false};
	bool anyConformanceViolation_{false};
	bool deferMessages_{false};
	bool anyDeferredMessages_{false};
	bool anyTokenMatched_{false};
	// NOTE: Any additions or modifications to these data members must also be
	// reflected in the copy and move constructors defined at the top of this
	// class definition!
	};
	} // namespace Fortran::parser
	#endif // FORTRAN_PARSER_PARSE_STATE_H_