zircon/system/host/fidl/lib/raw_ast.cpp - fuchsia/ - Git at Google

 // Copyright 2018 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // This file contains the implementations of the Accept methods for the AST
 // nodes.  Generally, all they do is invoke the appropriate TreeVisitor method
 // for each field of the node.

 #include "fidl/raw_ast.h"
 #include "fidl/tree_visitor.h"

 #include <map>

 namespace fidl {
 namespace raw {

 SourceElementMark::SourceElementMark(TreeVisitor& tv,
                                      const SourceElement& element)
     : tv_(tv), element_(element) {
     tv_.OnSourceElementStart(element_);
 }

 SourceElementMark::~SourceElementMark() {
     tv_.OnSourceElementEnd(element_);
 }

 void CompoundIdentifier::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     for (auto& i : components) {
         visitor.OnIdentifier(i);
     }
 }

 void StringLiteral::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
 }

 void NumericLiteral::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
 }

 void TrueLiteral::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
 }

 void FalseLiteral::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
 }

 void IdentifierConstant::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     visitor.OnCompoundIdentifier(identifier);
 }

 void LiteralConstant::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     visitor.OnLiteral(literal);
 }

 void Ordinal::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
 }

 void Attribute::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
 }

 void AttributeList::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     for (auto& i : attributes) {
         visitor.OnAttribute(i);
     }
 }

 void TypeConstructor::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     visitor.OnCompoundIdentifier(identifier);
     if (maybe_arg_type_ctor != nullptr)
         visitor.OnTypeConstructor(maybe_arg_type_ctor);
     if (maybe_handle_subtype != nullptr)
         visitor.OnHandleSubtype(*maybe_handle_subtype);
     if (maybe_size != nullptr)
         visitor.OnConstant(maybe_size);
     visitor.OnNullability(nullability);
 }

 void Using::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     visitor.OnCompoundIdentifier(using_path);
     if (maybe_alias != nullptr) {
         visitor.OnIdentifier(maybe_alias);
     }
     if (maybe_type_ctor != nullptr) {
         visitor.OnTypeConstructor(maybe_type_ctor);
     }
 }

 void BitsMember::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     visitor.OnConstant(value);
 }

 void BitsDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     if (maybe_type_ctor != nullptr) {
         visitor.OnTypeConstructor(maybe_type_ctor);
     }
     for (auto member = members.begin(); member != members.end(); ++member) {
         visitor.OnBitsMember(*member);
     }
 }

 void ConstDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnTypeConstructor(type_ctor);
     visitor.OnIdentifier(identifier);
     visitor.OnConstant(constant);
 }

 void EnumMember::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     visitor.OnConstant(value);
 }

 void EnumDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     if (maybe_type_ctor != nullptr) {
         visitor.OnTypeConstructor(maybe_type_ctor);
     }
     for (auto member = members.begin(); member != members.end(); ++member) {
         visitor.OnEnumMember(*member);
     }
 }

 void Parameter::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     visitor.OnTypeConstructor(type_ctor);
     visitor.OnIdentifier(identifier);
 }

 void ParameterList::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     for (auto parameter = parameter_list.begin(); parameter != parameter_list.end(); ++parameter) {
         visitor.OnParameter(*parameter);
     }
 }

 void InterfaceMethod::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     if (ordinal != nullptr) {
         visitor.OnOrdinal(*ordinal);
     }
     visitor.OnIdentifier(identifier);
     if (maybe_request != nullptr) {
         visitor.OnParameterList(maybe_request);
     }
     if (maybe_response != nullptr) {
         visitor.OnParameterList(maybe_response);
     }
     if (maybe_error_ctor != nullptr) {
         visitor.OnTypeConstructor(maybe_error_ctor);
     }
 }

 void ComposeProtocol::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     visitor.OnCompoundIdentifier(protocol_name);
 }

 void InterfaceDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     for (auto superinterface = superinterfaces.begin();
         superinterface != superinterfaces.end();
         ++superinterface) {
         visitor.OnComposeProtocol(*superinterface);
     }
     for (auto method = methods.begin();
         method != methods.end();
         ++method) {
         visitor.OnInterfaceMethod(*method);
     }
 }

 void StructMember::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnTypeConstructor(type_ctor);
     visitor.OnIdentifier(identifier);
     if (maybe_default_value != nullptr) {
         visitor.OnConstant(maybe_default_value);
     }
 }

 void StructDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     for (auto member = members.begin();
          member != members.end();
          ++member) {
         visitor.OnStructMember(*member);
     }
 }

 void TableMember::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (maybe_used != nullptr) {
         if (maybe_used->attributes != nullptr) {
             visitor.OnAttributeList(maybe_used->attributes);
         }
     }
     visitor.OnOrdinal(*ordinal);
     if (maybe_used != nullptr) {
         visitor.OnTypeConstructor(maybe_used->type_ctor);
         visitor.OnIdentifier(maybe_used->identifier);
         if (maybe_used->maybe_default_value != nullptr) {
             visitor.OnConstant(maybe_used->maybe_default_value);
         }
     }
 }

 void TableDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     for (auto member = members.begin();
          member != members.end();
          ++member) {
         visitor.OnTableMember(*member);
     }
 }

 void UnionMember::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnTypeConstructor(type_ctor);
     visitor.OnIdentifier(identifier);
 }

 void UnionDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     for (auto member = members.begin();
          member != members.end();
          ++member) {
         visitor.OnUnionMember(*member);
     }
 }

 void XUnionMember::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }

     visitor.OnTypeConstructor(type_ctor);
     visitor.OnIdentifier(identifier);
 }

 void XUnionDeclaration::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnIdentifier(identifier);
     for (auto& member : members) {
         visitor.OnXUnionMember(member);
     }
 }

 void File::Accept(TreeVisitor& visitor) {
     SourceElementMark sem(visitor, *this);
     if (attributes != nullptr) {
         visitor.OnAttributeList(attributes);
     }
     visitor.OnCompoundIdentifier(library_name);
     for (auto& i : using_list) {
         visitor.OnUsing(i);
     }
     for (auto& i : const_declaration_list) {
         visitor.OnConstDeclaration(i);
     }
     for (auto& i : enum_declaration_list) {
         visitor.OnEnumDeclaration(i);
     }
     for (auto& i : interface_declaration_list) {
         visitor.OnInterfaceDeclaration(i);
     }
     for (auto& i : struct_declaration_list) {
         visitor.OnStructDeclaration(i);
     }
     for (auto& i : table_declaration_list) {
         visitor.OnTableDeclaration(i);
     }
     for (auto& i : union_declaration_list) {
         visitor.OnUnionDeclaration(i);
     }
     for (auto& i : xunion_declaration_list) {
         visitor.OnXUnionDeclaration(i);
     }
 }

 } // namespace raw
 } // namespace fidl
	// Copyright 2018 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// This file contains the implementations of the Accept methods for the AST
	// nodes. Generally, all they do is invoke the appropriate TreeVisitor method
	// for each field of the node.

	#include "fidl/raw_ast.h"
	#include "fidl/tree_visitor.h"

	#include <map>

	namespace fidl {
	namespace raw {

	SourceElementMark::SourceElementMark(TreeVisitor& tv,
	const SourceElement& element)
	: tv_(tv), element_(element) {
	tv_.OnSourceElementStart(element_);
	}

	SourceElementMark::~SourceElementMark() {
	tv_.OnSourceElementEnd(element_);
	}

	void CompoundIdentifier::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	for (auto& i : components) {
	visitor.OnIdentifier(i);
	}
	}

	void StringLiteral::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	}

	void NumericLiteral::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	}

	void TrueLiteral::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	}

	void FalseLiteral::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	}

	void IdentifierConstant::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	visitor.OnCompoundIdentifier(identifier);
	}

	void LiteralConstant::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	visitor.OnLiteral(literal);
	}

	void Ordinal::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	}

	void Attribute::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	}

	void AttributeList::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	for (auto& i : attributes) {
	visitor.OnAttribute(i);
	}
	}

	void TypeConstructor::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	visitor.OnCompoundIdentifier(identifier);
	if (maybe_arg_type_ctor != nullptr)
	visitor.OnTypeConstructor(maybe_arg_type_ctor);
	if (maybe_handle_subtype != nullptr)
	visitor.OnHandleSubtype(*maybe_handle_subtype);
	if (maybe_size != nullptr)
	visitor.OnConstant(maybe_size);
	visitor.OnNullability(nullability);
	}

	void Using::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	visitor.OnCompoundIdentifier(using_path);
	if (maybe_alias != nullptr) {
	visitor.OnIdentifier(maybe_alias);
	}
	if (maybe_type_ctor != nullptr) {
	visitor.OnTypeConstructor(maybe_type_ctor);
	}
	}

	void BitsMember::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	visitor.OnConstant(value);
	}

	void BitsDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	if (maybe_type_ctor != nullptr) {
	visitor.OnTypeConstructor(maybe_type_ctor);
	}
	for (auto member = members.begin(); member != members.end(); ++member) {
	visitor.OnBitsMember(*member);
	}
	}

	void ConstDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnTypeConstructor(type_ctor);
	visitor.OnIdentifier(identifier);
	visitor.OnConstant(constant);
	}

	void EnumMember::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	visitor.OnConstant(value);
	}

	void EnumDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	if (maybe_type_ctor != nullptr) {
	visitor.OnTypeConstructor(maybe_type_ctor);
	}
	for (auto member = members.begin(); member != members.end(); ++member) {
	visitor.OnEnumMember(*member);
	}
	}

	void Parameter::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	visitor.OnTypeConstructor(type_ctor);
	visitor.OnIdentifier(identifier);
	}

	void ParameterList::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	for (auto parameter = parameter_list.begin(); parameter != parameter_list.end(); ++parameter) {
	visitor.OnParameter(*parameter);
	}
	}

	void InterfaceMethod::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	if (ordinal != nullptr) {
	visitor.OnOrdinal(*ordinal);
	}
	visitor.OnIdentifier(identifier);
	if (maybe_request != nullptr) {
	visitor.OnParameterList(maybe_request);
	}
	if (maybe_response != nullptr) {
	visitor.OnParameterList(maybe_response);
	}
	if (maybe_error_ctor != nullptr) {
	visitor.OnTypeConstructor(maybe_error_ctor);
	}
	}

	void ComposeProtocol::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	visitor.OnCompoundIdentifier(protocol_name);
	}

	void InterfaceDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	for (auto superinterface = superinterfaces.begin();
	superinterface != superinterfaces.end();
	++superinterface) {
	visitor.OnComposeProtocol(*superinterface);
	}
	for (auto method = methods.begin();
	method != methods.end();
	++method) {
	visitor.OnInterfaceMethod(*method);
	}
	}

	void StructMember::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnTypeConstructor(type_ctor);
	visitor.OnIdentifier(identifier);
	if (maybe_default_value != nullptr) {
	visitor.OnConstant(maybe_default_value);
	}
	}

	void StructDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	for (auto member = members.begin();
	member != members.end();
	++member) {
	visitor.OnStructMember(*member);
	}
	}

	void TableMember::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (maybe_used != nullptr) {
	if (maybe_used->attributes != nullptr) {
	visitor.OnAttributeList(maybe_used->attributes);
	}
	}
	visitor.OnOrdinal(*ordinal);
	if (maybe_used != nullptr) {
	visitor.OnTypeConstructor(maybe_used->type_ctor);
	visitor.OnIdentifier(maybe_used->identifier);
	if (maybe_used->maybe_default_value != nullptr) {
	visitor.OnConstant(maybe_used->maybe_default_value);
	}
	}
	}

	void TableDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	for (auto member = members.begin();
	member != members.end();
	++member) {
	visitor.OnTableMember(*member);
	}
	}

	void UnionMember::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnTypeConstructor(type_ctor);
	visitor.OnIdentifier(identifier);
	}

	void UnionDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	for (auto member = members.begin();
	member != members.end();
	++member) {
	visitor.OnUnionMember(*member);
	}
	}

	void XUnionMember::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}

	visitor.OnTypeConstructor(type_ctor);
	visitor.OnIdentifier(identifier);
	}

	void XUnionDeclaration::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnIdentifier(identifier);
	for (auto& member : members) {
	visitor.OnXUnionMember(member);
	}
	}

	void File::Accept(TreeVisitor& visitor) {
	SourceElementMark sem(visitor, *this);
	if (attributes != nullptr) {
	visitor.OnAttributeList(attributes);
	}
	visitor.OnCompoundIdentifier(library_name);
	for (auto& i : using_list) {
	visitor.OnUsing(i);
	}
	for (auto& i : const_declaration_list) {
	visitor.OnConstDeclaration(i);
	}
	for (auto& i : enum_declaration_list) {
	visitor.OnEnumDeclaration(i);
	}
	for (auto& i : interface_declaration_list) {
	visitor.OnInterfaceDeclaration(i);
	}
	for (auto& i : struct_declaration_list) {
	visitor.OnStructDeclaration(i);
	}
	for (auto& i : table_declaration_list) {
	visitor.OnTableDeclaration(i);
	}
	for (auto& i : union_declaration_list) {
	visitor.OnUnionDeclaration(i);
	}
	for (auto& i : xunion_declaration_list) {
	visitor.OnXUnionDeclaration(i);
	}
	}

	} // namespace raw
	} // namespace fidl