EnumType.cpp - platform/system/tools/hidl - Git at Google

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "EnumType.h"

 #include "Annotation.h"
 #include "ScalarType.h"

 #include <inttypes.h>
 #include <hidl-util/Formatter.h>
 #include <android-base/logging.h>

 namespace android {

 EnumType::EnumType(const char* localName, const Location& location, Type* storageType,
                    Scope* parent)
     : Scope(localName, location, parent), mValues(), mStorageType(storageType) {
     mBitfieldType = new BitFieldType();
     mBitfieldType->setElementType(this);
 }

 const Type *EnumType::storageType() const {
     return mStorageType;
 }

 const std::vector<EnumValue *> &EnumType::values() const {
     return mValues;
 }

 void EnumType::addValue(EnumValue *value) {
     CHECK(value != nullptr);

     EnumValue *prev = nullptr;
     std::vector<const EnumType *> chain;
     getTypeChain(&chain);
     for (auto it = chain.begin(); it != chain.end(); ++it) {
         const auto &type = *it;
         if(!type->values().empty()) {
             prev = type->values().back();
             break;
         }
     }

     value->autofill(prev, resolveToScalarType());
     mValues.push_back(value);
 }

 bool EnumType::isElidableType() const {
     return mStorageType->isElidableType();
 }

 const ScalarType *EnumType::resolveToScalarType() const {
     return mStorageType->resolveToScalarType();
 }

 std::string EnumType::typeName() const {
     return "enum " + localName();
 }

 bool EnumType::isEnum() const {
     return true;
 }

 bool EnumType::canCheckEquality() const {
     return true;
 }

 std::string EnumType::getCppType(StorageMode,
                                  bool /* specifyNamespaces */) const {
     return fullName();
 }

 std::string EnumType::getJavaType(bool forInitializer) const {
     return mStorageType->resolveToScalarType()->getJavaType(forInitializer);
 }

 std::string EnumType::getJavaSuffix() const {
     return mStorageType->resolveToScalarType()->getJavaSuffix();
 }

 std::string EnumType::getJavaWrapperType() const {
     return mStorageType->resolveToScalarType()->getJavaWrapperType();
 }

 std::string EnumType::getVtsType() const {
     return "TYPE_ENUM";
 }

 BitFieldType *EnumType::getBitfieldType() const {
     return mBitfieldType;
 }

 LocalIdentifier *EnumType::lookupIdentifier(const std::string &name) const {
     std::vector<const EnumType *> chain;
     getTypeChain(&chain);
     for (auto it = chain.begin(); it != chain.end(); ++it) {
         const auto &type = *it;
         for(EnumValue *v : type->values()) {
             if(v->name() == name) {
                 return v;
             }
         }
     }
     return nullptr;
 }

 void EnumType::emitReaderWriter(
         Formatter &out,
         const std::string &name,
         const std::string &parcelObj,
         bool parcelObjIsPointer,
         bool isReader,
         ErrorMode mode) const {
     const ScalarType *scalarType = mStorageType->resolveToScalarType();
     CHECK(scalarType != NULL);

     scalarType->emitReaderWriterWithCast(
             out,
             name,
             parcelObj,
             parcelObjIsPointer,
             isReader,
             mode,
             true /* needsCast */);
 }

 void EnumType::emitJavaFieldReaderWriter(
         Formatter &out,
         size_t depth,
         const std::string &parcelName,
         const std::string &blobName,
         const std::string &fieldName,
         const std::string &offset,
         bool isReader) const {
     return mStorageType->emitJavaFieldReaderWriter(
             out, depth, parcelName, blobName, fieldName, offset, isReader);
 }

 status_t EnumType::emitTypeDeclarations(Formatter &out) const {
     const ScalarType *scalarType = mStorageType->resolveToScalarType();
     CHECK(scalarType != nullptr);

     const std::string storageType = scalarType->getCppStackType();

     out << "enum class "
         << localName()
         << " : "
         << storageType
         << " {\n";

     out.indent();

     std::vector<const EnumType *> chain;
     getTypeChain(&chain);

     for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
         const auto &type = *it;

         for (const auto &entry : type->values()) {
             out << entry->name();

             std::string value = entry->cppValue(scalarType->getKind());
             CHECK(!value.empty()); // use autofilled values for c++.
             out << " = " << value;

             out << ",";

             std::string comment = entry->comment();
             if (!comment.empty() && comment != value) {
                 out << " // " << comment;
             }

             out << "\n";
         }
     }

     out.unindent();
     out << "};\n\n";

     return OK;
 }

 void EnumType::emitEnumBitwiseOperator(
         Formatter &out,
         bool lhsIsEnum,
         bool rhsIsEnum,
         const std::string &op) const {
     const ScalarType *scalarType = mStorageType->resolveToScalarType();
     CHECK(scalarType != nullptr);

     const std::string storageType = scalarType->getCppStackType();

     out << "constexpr "
         << storageType
         << " operator"
         << op
         << "(const "
         << (lhsIsEnum ? fullName() : storageType)
         << " lhs, const "
         << (rhsIsEnum ? fullName() : storageType)
         << " rhs) {\n";

     out.indent([&] {
         out << "return static_cast<"
             << storageType
             << ">(";

         if (lhsIsEnum) {
             out << "static_cast<"
                 << storageType
                 << ">(lhs)";
         } else {
             out << "lhs";
         }
         out << " " << op << " ";
         if (rhsIsEnum) {
             out << "static_cast<"
                 << storageType
                 << ">(rhs)";
         } else {
             out << "rhs";
         }
         out << ");\n";
     });

     out << "}\n\n";
 }

 void EnumType::emitBitFieldBitwiseAssignmentOperator(
         Formatter &out,
         const std::string &op) const {
     const ScalarType *scalarType = mStorageType->resolveToScalarType();
     CHECK(scalarType != nullptr);

     const std::string storageType = scalarType->getCppStackType();

     out << "constexpr " << storageType << " &operator" << op << "=("
         << storageType << "& v, const " << fullName() << " e) {\n";

     out.indent([&] {
         out << "v " << op << "= static_cast<" << storageType << ">(e);\n";
         out << "return v;\n";
     });

     out << "}\n\n";
 }

 status_t EnumType::emitGlobalTypeDeclarations(Formatter &out) const {
     emitEnumBitwiseOperator(out, true  /* lhsIsEnum */, true  /* rhsIsEnum */, "|");
     emitEnumBitwiseOperator(out, false /* lhsIsEnum */, true  /* rhsIsEnum */, "|");
     emitEnumBitwiseOperator(out, true  /* lhsIsEnum */, false /* rhsIsEnum */, "|");
     emitEnumBitwiseOperator(out, true  /* lhsIsEnum */, true  /* rhsIsEnum */, "&");
     emitEnumBitwiseOperator(out, false /* lhsIsEnum */, true  /* rhsIsEnum */, "&");
     emitEnumBitwiseOperator(out, true  /* lhsIsEnum */, false /* rhsIsEnum */, "&");

     emitBitFieldBitwiseAssignmentOperator(out, "|");
     emitBitFieldBitwiseAssignmentOperator(out, "&");

     // toString for bitfields, equivalent to dumpBitfield in Java
     out << "template<typename>\n"
         << "std::string toString("
         << resolveToScalarType()->getCppArgumentType()
         << " o);\n";
     out << "template<>\n"
         << "std::string toString<" << getCppStackType() << ">("
         << resolveToScalarType()->getCppArgumentType()
         << " o);\n\n";

     // toString for enum itself
     out << "std::string toString("
         << getCppArgumentType()
         << " o);\n\n";

     return OK;
 }

 status_t EnumType::emitTypeDefinitions(Formatter &out, const std::string /* prefix */) const {

     const ScalarType *scalarType = mStorageType->resolveToScalarType();
     CHECK(scalarType != NULL);

     out << "template<>\n"
         << "std::string toString<" << getCppStackType() << ">("
         << scalarType->getCppArgumentType()
         << " o) ";
     out.block([&] {
         // include toHexString for scalar types
         out << "using ::android::hardware::details::toHexString;\n"
             << "std::string os;\n"
             << getBitfieldType()->getCppStackType() << " flipped = 0;\n"
             << "bool first = true;\n";
         for (EnumValue *value : values()) {
             std::string valueName = fullName() + "::" + value->name();
             out.sIf("(o & " + valueName + ")" +
                     " == static_cast<" + scalarType->getCppStackType() +
                     ">(" + valueName + ")", [&] {
                 out << "os += (first ? \"\" : \" | \");\n"
                     << "os += \"" << value->name() << "\";\n"
                     << "first = false;\n"
                     << "flipped |= " << valueName << ";\n";
             }).endl();
         }
         // put remaining bits
         out.sIf("o != flipped", [&] {
             out << "os += (first ? \"\" : \" | \");\n";
             scalarType->emitHexDump(out, "os", "o & (~flipped)");
         });
         out << "os += \" (\";\n";
         scalarType->emitHexDump(out, "os", "o");
         out << "os += \")\";\n";

         out << "return os;\n";
     }).endl().endl();

     out << "std::string toString("
         << getCppArgumentType()
         << " o) ";

     out.block([&] {
         out << "using ::android::hardware::details::toHexString;\n";
         for (EnumValue *value : values()) {
             out.sIf("o == " + fullName() + "::" + value->name(), [&] {
                 out << "return \"" << value->name() << "\";\n";
             }).endl();
         }
         out << "std::string os;\n";
         scalarType->emitHexDump(out, "os",
             "static_cast<" + scalarType->getCppStackType() + ">(o)");
         out << "return os;\n";
     }).endl().endl();

     return OK;
 }

 status_t EnumType::emitJavaTypeDeclarations(Formatter &out, bool atTopLevel) const {
     const ScalarType *scalarType = mStorageType->resolveToScalarType();
     CHECK(scalarType != NULL);

     out << "public "
         << (atTopLevel ? "" : "static ")
         << "final class "
         << localName()
         << " {\n";

     out.indent();

     const std::string typeName =
         scalarType->getJavaType(false /* forInitializer */);

     std::vector<const EnumType *> chain;
     getTypeChain(&chain);

     for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
         const auto &type = *it;

         for (const auto &entry : type->values()) {
             out << "public static final "
                 << typeName
                 << " "
                 << entry->name()
                 << " = ";

             // javaValue will make the number signed.
             std::string value = entry->javaValue(scalarType->getKind());
             CHECK(!value.empty()); // use autofilled values for java.
             out << value;

             out << ";";

             std::string comment = entry->comment();
             if (!comment.empty() && comment != value) {
                 out << " // " << comment;
             }

             out << "\n";
         }
     }

     out << "public static final String toString("
         << typeName << " o) ";
     out.block([&] {
         for (EnumValue *value : values()) {
             out.sIf("o == " + value->name(), [&] {
                 out << "return \"" << value->name() << "\";\n";
             }).endl();
         }
         out << "return \"0x\" + ";
         scalarType->emitConvertToJavaHexString(out, "o");
         out << ";\n";
     }).endl();

     auto bitfieldType = getBitfieldType()->getJavaType(false /* forInitializer */);
     auto bitfieldWrapperType = getBitfieldType()->getJavaWrapperType();
     out << "\n"
         << "public static final String dumpBitfield("
         << bitfieldType << " o) ";
     out.block([&] {
         out << "java.util.ArrayList<String> list = new java.util.ArrayList<>();\n";
         out << bitfieldType << " flipped = 0;\n";
         for (EnumValue *value : values()) {
             if (value->constExpr()->castSizeT() == 0) {
                 out << "list.add(\"" << value->name() << "\"); // " << value->name() << " == 0\n";
                 continue;
             }
             out.sIf("(o & " + value->name() + ") == " + value->name(), [&] {
                 out << "list.add(\"" << value->name() << "\");\n";
                 out << "flipped |= " << value->name() << ";\n";
             }).endl();
         }
         // put remaining bits
         out.sIf("o != flipped", [&] {
             out << "list.add(\"0x\" + ";
             scalarType->emitConvertToJavaHexString(out, "o & (~flipped)");
             out << ");\n";
         }).endl();
         out << "return String.join(\" | \", list);\n";
     }).endl().endl();

     out.unindent();
     out << "};\n\n";

     return OK;
 }

 status_t EnumType::emitVtsTypeDeclarations(Formatter &out) const {
     const ScalarType *scalarType = mStorageType->resolveToScalarType();

     out << "name: \"" << fullName() << "\"\n";
     out << "type: " << getVtsType() << "\n";
     out << "enum_value: {\n";
     out.indent();

     out << "scalar_type: \""
         << scalarType->getVtsScalarType()
         << "\"\n\n";
     std::vector<const EnumType *> chain;
     getTypeChain(&chain);

     for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
         const auto &type = *it;

         for (const auto &entry : type->values()) {
             out << "enumerator: \"" << entry->name() << "\"\n";
             out << "scalar_value: {\n";
             out.indent();
             // use autofilled values for vts.
             std::string value = entry->value(scalarType->getKind());
             CHECK(!value.empty());
             out << mStorageType->resolveToScalarType()->getVtsScalarType()
                 << ": "
                 << value
                 << "\n";
             out.unindent();
             out << "}\n";
         }
     }

     out.unindent();
     out << "}\n";
     return OK;
 }

 status_t EnumType::emitVtsAttributeType(Formatter &out) const {
     out << "type: " << getVtsType() << "\n";
     out << "predefined_type: \"" << fullName() << "\"\n";
     return OK;
 }

 void EnumType::emitJavaDump(
         Formatter &out,
         const std::string &streamName,
         const std::string &name) const {
     out << streamName << ".append(" << fqName().javaName() << ".toString("
         << name << "));\n";
 }

 void EnumType::getTypeChain(std::vector<const EnumType *> *out) const {
     out->clear();
     const EnumType *type = this;
     for (;;) {
         out->push_back(type);

         const Type *superType = type->storageType();
         if (superType == NULL || !superType->isEnum()) {
             break;
         }

         type = static_cast<const EnumType *>(superType);
     }
 }

 void EnumType::getAlignmentAndSize(size_t *align, size_t *size) const {
     mStorageType->getAlignmentAndSize(align, size);
 }

 const Annotation *EnumType::findExportAnnotation() const {
     for (const auto &annotation : annotations()) {
         if (annotation->name() == "export") {
             return annotation;
         }
     }

     return nullptr;
 }

 void EnumType::appendToExportedTypesVector(
         std::vector<const Type *> *exportedTypes) const {
     if (findExportAnnotation() != nullptr) {
         exportedTypes->push_back(this);
     }
 }

 status_t EnumType::emitExportedHeader(Formatter &out, bool forJava) const {
     const Annotation *annotation = findExportAnnotation();
     CHECK(annotation != nullptr);

     std::string name = localName();

     const AnnotationParam *nameParam = annotation->getParam("name");
     if (nameParam != nullptr) {
         name = nameParam->getSingleString();
     }

     bool exportParent = true;
     const AnnotationParam *exportParentParam = annotation->getParam("export_parent");
     if (exportParentParam != nullptr) {
         exportParent = exportParentParam->getSingleBool();
     }

     std::string valuePrefix;
     const AnnotationParam *prefixParam = annotation->getParam("value_prefix");
     if (prefixParam != nullptr) {
         valuePrefix = prefixParam->getSingleString();
     }

     std::string valueSuffix;
     const AnnotationParam *suffixParam = annotation->getParam("value_suffix");
     if (suffixParam != nullptr) {
         valueSuffix = suffixParam->getSingleString();
     }

     const ScalarType *scalarType = mStorageType->resolveToScalarType();
     CHECK(scalarType != nullptr);

     std::vector<const EnumType *> chain;
     if (exportParent) {
         getTypeChain(&chain);
     } else {
         chain = { this };
     }

     if (forJava) {
         if (!name.empty()) {
             out << "public final class "
                 << name
                 << " {\n";

             out.indent();
         } else {
             out << "// Values declared in " << localName() << " follow.\n";
         }

         const std::string typeName =
             scalarType->getJavaType(false /* forInitializer */);

         for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
             const auto &type = *it;

             for (const auto &entry : type->values()) {
                 out << "public static final "
                     << typeName
                     << " "
                     << valuePrefix
                     << entry->name()
                     << valueSuffix
                     << " = ";

                 // javaValue will make the number signed.
                 std::string value = entry->javaValue(scalarType->getKind());
                 CHECK(!value.empty()); // use autofilled values for java.
                 out << value;

                 out << ";";

                 std::string comment = entry->comment();
                 if (!comment.empty() && comment != value) {
                     out << " // " << comment;
                 }

                 out << "\n";
             }
         }

         if (!name.empty()) {
             out.unindent();
             out << "};\n";
         }
         out << "\n";

         return OK;
     }

     if (!name.empty()) {
         out << "typedef ";
     }

     out << "enum {\n";

     out.indent();

     for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
         const auto &type = *it;

         for (const auto &entry : type->values()) {
             out << valuePrefix << entry->name() << valueSuffix;

             std::string value = entry->cppValue(scalarType->getKind());
             CHECK(!value.empty()); // use autofilled values for c++.
             out << " = " << value;

             out << ",";

             std::string comment = entry->comment();
             if (!comment.empty() && comment != value) {
                 out << " // " << comment;
             }

             out << "\n";
         }
     }

     out.unindent();
     out << "}";

     if (!name.empty()) {
         out << " " << name;
     }

     out << ";\n\n";

     return OK;
 }

 ////////////////////////////////////////////////////////////////////////////////

 EnumValue::EnumValue(const char *name, ConstantExpression *value)
     : mName(name),
       mValue(value),
       mIsAutoFill(false) {
 }

 std::string EnumValue::name() const {
     return mName;
 }

 std::string EnumValue::value(ScalarType::Kind castKind) const {
     CHECK(mValue != nullptr);
     return mValue->value(castKind);
 }

 std::string EnumValue::cppValue(ScalarType::Kind castKind) const {
     CHECK(mValue != nullptr);
     return mValue->cppValue(castKind);
 }
 std::string EnumValue::javaValue(ScalarType::Kind castKind) const {
     CHECK(mValue != nullptr);
     return mValue->javaValue(castKind);
 }

 std::string EnumValue::comment() const {
     CHECK(mValue != nullptr);
     return mValue->description();
 }

 ConstantExpression *EnumValue::constExpr() const {
     CHECK(mValue != nullptr);
     return mValue;
 }

 void EnumValue::autofill(const EnumValue *prev, const ScalarType *type) {
     if(mValue != nullptr)
         return;
     mIsAutoFill = true;
     ConstantExpression *value = new ConstantExpression();
     if(prev == nullptr) {
         *value = ConstantExpression::Zero(type->getKind());
     } else {
         CHECK(prev->mValue != nullptr);
         *value = prev->mValue->addOne();
     }
     mValue = value;
 }

 bool EnumValue::isAutoFill() const {
     return mIsAutoFill;
 }

 bool EnumValue::isEnumValue() const {
     return true;
 }

 ////////////////////////////////////////////////////////////////////////////////

 bool BitFieldType::isBitField() const {
     return true;
 }

 std::string BitFieldType::typeName() const {
     return "mask" + (mElementType == nullptr ? "" : (" of " + mElementType->typeName()));
 }

 bool BitFieldType::isCompatibleElementType(Type *elementType) const {
     return elementType->isEnum();
 }

 const ScalarType *BitFieldType::resolveToScalarType() const {
     return mElementType->resolveToScalarType();
 }

 std::string BitFieldType::getCppType(StorageMode mode,
                                  bool specifyNamespaces) const {
     return resolveToScalarType()->getCppType(mode, specifyNamespaces);
 }

 std::string BitFieldType::getJavaType(bool forInitializer) const {
     return resolveToScalarType()->getJavaType(forInitializer);
 }

 std::string BitFieldType::getJavaSuffix() const {
     return resolveToScalarType()->getJavaSuffix();
 }

 std::string BitFieldType::getJavaWrapperType() const {
     return resolveToScalarType()->getJavaWrapperType();
 }

 std::string BitFieldType::getVtsType() const {
     return "TYPE_MASK";
 }

 bool BitFieldType::isElidableType() const {
     return resolveToScalarType()->isElidableType();
 }

 bool BitFieldType::canCheckEquality() const {
     return resolveToScalarType()->canCheckEquality();
 }

 status_t BitFieldType::emitVtsAttributeType(Formatter &out) const {
     out << "type: " << getVtsType() << "\n";
     out << "scalar_type: \""
         << mElementType->resolveToScalarType()->getVtsScalarType()
         << "\"\n";
     out << "predefined_type: \""
         << static_cast<NamedType *>(mElementType)->fullName() << "\"\n";
     return OK;
 }

 void BitFieldType::getAlignmentAndSize(size_t *align, size_t *size) const {
     resolveToScalarType()->getAlignmentAndSize(align, size);
 }

 void BitFieldType::emitReaderWriter(
         Formatter &out,
         const std::string &name,
         const std::string &parcelObj,
         bool parcelObjIsPointer,
         bool isReader,
         ErrorMode mode) const {
     resolveToScalarType()->emitReaderWriterWithCast(
             out,
             name,
             parcelObj,
             parcelObjIsPointer,
             isReader,
             mode,
             true /* needsCast */);
 }

 EnumType *BitFieldType::getEnumType() const {
     CHECK(mElementType->isEnum());
     return static_cast<EnumType *>(mElementType);
 }

 // a bitfield maps to the underlying scalar type in C++, so operator<< is
 // already defined. We can still emit useful information if the bitfield is
 // in a struct / union by overriding emitDump as below.
 void BitFieldType::emitDump(
         Formatter &out,
         const std::string &streamName,
         const std::string &name) const {
     out << streamName << " += "<< getEnumType()->fqName().cppNamespace()
         << "::toString<" << getEnumType()->getCppStackType()
         << ">(" << name << ");\n";
 }

 void BitFieldType::emitJavaDump(
         Formatter &out,
         const std::string &streamName,
         const std::string &name) const {
     out << streamName << ".append(" << getEnumType()->fqName().javaName() << ".dumpBitfield("
         << name << "));\n";
 }

 void BitFieldType::emitJavaFieldReaderWriter(
         Formatter &out,
         size_t depth,
         const std::string &parcelName,
         const std::string &blobName,
         const std::string &fieldName,
         const std::string &offset,
         bool isReader) const {
     return resolveToScalarType()->emitJavaFieldReaderWriter(
             out, depth, parcelName, blobName, fieldName, offset, isReader);
 }

 }  // namespace android
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "EnumType.h"

	#include "Annotation.h"
	#include "ScalarType.h"

	#include <inttypes.h>
	#include <hidl-util/Formatter.h>
	#include <android-base/logging.h>

	namespace android {

	EnumType::EnumType(const char* localName, const Location& location, Type* storageType,
	Scope* parent)
	: Scope(localName, location, parent), mValues(), mStorageType(storageType) {
	mBitfieldType = new BitFieldType();
	mBitfieldType->setElementType(this);
	}

	const Type *EnumType::storageType() const {
	return mStorageType;
	}

	const std::vector<EnumValue *> &EnumType::values() const {
	return mValues;
	}

	void EnumType::addValue(EnumValue *value) {
	CHECK(value != nullptr);

	EnumValue *prev = nullptr;
	std::vector<const EnumType *> chain;
	getTypeChain(&chain);
	for (auto it = chain.begin(); it != chain.end(); ++it) {
	const auto &type = *it;
	if(!type->values().empty()) {
	prev = type->values().back();
	break;
	}
	}

	value->autofill(prev, resolveToScalarType());
	mValues.push_back(value);
	}

	bool EnumType::isElidableType() const {
	return mStorageType->isElidableType();
	}

	const ScalarType *EnumType::resolveToScalarType() const {
	return mStorageType->resolveToScalarType();
	}

	std::string EnumType::typeName() const {
	return "enum " + localName();
	}

	bool EnumType::isEnum() const {
	return true;
	}

	bool EnumType::canCheckEquality() const {
	return true;
	}

	std::string EnumType::getCppType(StorageMode,
	bool /* specifyNamespaces */) const {
	return fullName();
	}

	std::string EnumType::getJavaType(bool forInitializer) const {
	return mStorageType->resolveToScalarType()->getJavaType(forInitializer);
	}

	std::string EnumType::getJavaSuffix() const {
	return mStorageType->resolveToScalarType()->getJavaSuffix();
	}

	std::string EnumType::getJavaWrapperType() const {
	return mStorageType->resolveToScalarType()->getJavaWrapperType();
	}

	std::string EnumType::getVtsType() const {
	return "TYPE_ENUM";
	}

	BitFieldType *EnumType::getBitfieldType() const {
	return mBitfieldType;
	}

	LocalIdentifier *EnumType::lookupIdentifier(const std::string &name) const {
	std::vector<const EnumType *> chain;
	getTypeChain(&chain);
	for (auto it = chain.begin(); it != chain.end(); ++it) {
	const auto &type = *it;
	for(EnumValue *v : type->values()) {
	if(v->name() == name) {
	return v;
	}
	}
	}
	return nullptr;
	}

	void EnumType::emitReaderWriter(
	Formatter &out,
	const std::string &name,
	const std::string &parcelObj,
	bool parcelObjIsPointer,
	bool isReader,
	ErrorMode mode) const {
	const ScalarType *scalarType = mStorageType->resolveToScalarType();
	CHECK(scalarType != NULL);

	scalarType->emitReaderWriterWithCast(
	out,
	name,
	parcelObj,
	parcelObjIsPointer,
	isReader,
	mode,
	true /* needsCast */);
	}

	void EnumType::emitJavaFieldReaderWriter(
	Formatter &out,
	size_t depth,
	const std::string &parcelName,
	const std::string &blobName,
	const std::string &fieldName,
	const std::string &offset,
	bool isReader) const {
	return mStorageType->emitJavaFieldReaderWriter(
	out, depth, parcelName, blobName, fieldName, offset, isReader);
	}

	status_t EnumType::emitTypeDeclarations(Formatter &out) const {
	const ScalarType *scalarType = mStorageType->resolveToScalarType();
	CHECK(scalarType != nullptr);

	const std::string storageType = scalarType->getCppStackType();

	out << "enum class "
	<< localName()
	<< " : "
	<< storageType
	<< " {\n";

	out.indent();

	std::vector<const EnumType *> chain;
	getTypeChain(&chain);

	for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
	const auto &type = *it;

	for (const auto &entry : type->values()) {
	out << entry->name();

	std::string value = entry->cppValue(scalarType->getKind());
	CHECK(!value.empty()); // use autofilled values for c++.
	out << " = " << value;

	out << ",";

	std::string comment = entry->comment();
	if (!comment.empty() && comment != value) {
	out << " // " << comment;
	}

	out << "\n";
	}
	}

	out.unindent();
	out << "};\n\n";

	return OK;
	}

	void EnumType::emitEnumBitwiseOperator(
	Formatter &out,
	bool lhsIsEnum,
	bool rhsIsEnum,
	const std::string &op) const {
	const ScalarType *scalarType = mStorageType->resolveToScalarType();
	CHECK(scalarType != nullptr);

	const std::string storageType = scalarType->getCppStackType();

	out << "constexpr "
	<< storageType
	<< " operator"
	<< op
	<< "(const "
	<< (lhsIsEnum ? fullName() : storageType)
	<< " lhs, const "
	<< (rhsIsEnum ? fullName() : storageType)
	<< " rhs) {\n";

	out.indent([&] {
	out << "return static_cast<"
	<< storageType
	<< ">(";

	if (lhsIsEnum) {
	out << "static_cast<"
	<< storageType
	<< ">(lhs)";
	} else {
	out << "lhs";
	}
	out << " " << op << " ";
	if (rhsIsEnum) {
	out << "static_cast<"
	<< storageType
	<< ">(rhs)";
	} else {
	out << "rhs";
	}
	out << ");\n";
	});

	out << "}\n\n";
	}

	void EnumType::emitBitFieldBitwiseAssignmentOperator(
	Formatter &out,
	const std::string &op) const {
	const ScalarType *scalarType = mStorageType->resolveToScalarType();
	CHECK(scalarType != nullptr);

	const std::string storageType = scalarType->getCppStackType();

	out << "constexpr " << storageType << " &operator" << op << "=("
	<< storageType << "& v, const " << fullName() << " e) {\n";

	out.indent([&] {
	out << "v " << op << "= static_cast<" << storageType << ">(e);\n";
	out << "return v;\n";
	});

	out << "}\n\n";
	}

	status_t EnumType::emitGlobalTypeDeclarations(Formatter &out) const {
	emitEnumBitwiseOperator(out, true /* lhsIsEnum /, true / rhsIsEnum */, "\|");
	emitEnumBitwiseOperator(out, false /* lhsIsEnum /, true / rhsIsEnum */, "\|");
	emitEnumBitwiseOperator(out, true /* lhsIsEnum /, false / rhsIsEnum */, "\|");
	emitEnumBitwiseOperator(out, true /* lhsIsEnum /, true / rhsIsEnum */, "&");
	emitEnumBitwiseOperator(out, false /* lhsIsEnum /, true / rhsIsEnum */, "&");
	emitEnumBitwiseOperator(out, true /* lhsIsEnum /, false / rhsIsEnum */, "&");

	emitBitFieldBitwiseAssignmentOperator(out, "\|");
	emitBitFieldBitwiseAssignmentOperator(out, "&");

	// toString for bitfields, equivalent to dumpBitfield in Java
	out << "template<typename>\n"
	<< "std::string toString("
	<< resolveToScalarType()->getCppArgumentType()
	<< " o);\n";
	out << "template<>\n"
	<< "std::string toString<" << getCppStackType() << ">("
	<< resolveToScalarType()->getCppArgumentType()
	<< " o);\n\n";

	// toString for enum itself
	out << "std::string toString("
	<< getCppArgumentType()
	<< " o);\n\n";

	return OK;
	}

	status_t EnumType::emitTypeDefinitions(Formatter &out, const std::string /* prefix */) const {

	const ScalarType *scalarType = mStorageType->resolveToScalarType();
	CHECK(scalarType != NULL);

	out << "template<>\n"
	<< "std::string toString<" << getCppStackType() << ">("
	<< scalarType->getCppArgumentType()
	<< " o) ";
	out.block([&] {
	// include toHexString for scalar types
	out << "using ::android::hardware::details::toHexString;\n"
	<< "std::string os;\n"
	<< getBitfieldType()->getCppStackType() << " flipped = 0;\n"
	<< "bool first = true;\n";
	for (EnumValue *value : values()) {
	std::string valueName = fullName() + "::" + value->name();
	out.sIf("(o & " + valueName + ")" +
	" == static_cast<" + scalarType->getCppStackType() +
	">(" + valueName + ")", [&] {
	out << "os += (first ? \"\" : \" \| \");\n"
	<< "os += \"" << value->name() << "\";\n"
	<< "first = false;\n"
	<< "flipped \|= " << valueName << ";\n";
	}).endl();
	}
	// put remaining bits
	out.sIf("o != flipped", [&] {
	out << "os += (first ? \"\" : \" \| \");\n";
	scalarType->emitHexDump(out, "os", "o & (~flipped)");
	});
	out << "os += \" (\";\n";
	scalarType->emitHexDump(out, "os", "o");
	out << "os += \")\";\n";

	out << "return os;\n";
	}).endl().endl();

	out << "std::string toString("
	<< getCppArgumentType()
	<< " o) ";

	out.block([&] {
	out << "using ::android::hardware::details::toHexString;\n";
	for (EnumValue *value : values()) {
	out.sIf("o == " + fullName() + "::" + value->name(), [&] {
	out << "return \"" << value->name() << "\";\n";
	}).endl();
	}
	out << "std::string os;\n";
	scalarType->emitHexDump(out, "os",
	"static_cast<" + scalarType->getCppStackType() + ">(o)");
	out << "return os;\n";
	}).endl().endl();

	return OK;
	}

	status_t EnumType::emitJavaTypeDeclarations(Formatter &out, bool atTopLevel) const {
	const ScalarType *scalarType = mStorageType->resolveToScalarType();
	CHECK(scalarType != NULL);

	out << "public "
	<< (atTopLevel ? "" : "static ")
	<< "final class "
	<< localName()
	<< " {\n";

	out.indent();

	const std::string typeName =
	scalarType->getJavaType(false /* forInitializer */);

	std::vector<const EnumType *> chain;
	getTypeChain(&chain);

	for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
	const auto &type = *it;

	for (const auto &entry : type->values()) {
	out << "public static final "
	<< typeName
	<< " "
	<< entry->name()
	<< " = ";

	// javaValue will make the number signed.
	std::string value = entry->javaValue(scalarType->getKind());
	CHECK(!value.empty()); // use autofilled values for java.
	out << value;

	out << ";";

	std::string comment = entry->comment();
	if (!comment.empty() && comment != value) {
	out << " // " << comment;
	}

	out << "\n";
	}
	}

	out << "public static final String toString("
	<< typeName << " o) ";
	out.block([&] {
	for (EnumValue *value : values()) {
	out.sIf("o == " + value->name(), [&] {
	out << "return \"" << value->name() << "\";\n";
	}).endl();
	}
	out << "return \"0x\" + ";
	scalarType->emitConvertToJavaHexString(out, "o");
	out << ";\n";
	}).endl();

	auto bitfieldType = getBitfieldType()->getJavaType(false /* forInitializer */);
	auto bitfieldWrapperType = getBitfieldType()->getJavaWrapperType();
	out << "\n"
	<< "public static final String dumpBitfield("
	<< bitfieldType << " o) ";
	out.block([&] {
	out << "java.util.ArrayList<String> list = new java.util.ArrayList<>();\n";
	out << bitfieldType << " flipped = 0;\n";
	for (EnumValue *value : values()) {
	if (value->constExpr()->castSizeT() == 0) {
	out << "list.add(\"" << value->name() << "\"); // " << value->name() << " == 0\n";
	continue;
	}
	out.sIf("(o & " + value->name() + ") == " + value->name(), [&] {
	out << "list.add(\"" << value->name() << "\");\n";
	out << "flipped \|= " << value->name() << ";\n";
	}).endl();
	}
	// put remaining bits
	out.sIf("o != flipped", [&] {
	out << "list.add(\"0x\" + ";
	scalarType->emitConvertToJavaHexString(out, "o & (~flipped)");
	out << ");\n";
	}).endl();
	out << "return String.join(\" \| \", list);\n";
	}).endl().endl();

	out.unindent();
	out << "};\n\n";

	return OK;
	}

	status_t EnumType::emitVtsTypeDeclarations(Formatter &out) const {
	const ScalarType *scalarType = mStorageType->resolveToScalarType();

	out << "name: \"" << fullName() << "\"\n";
	out << "type: " << getVtsType() << "\n";
	out << "enum_value: {\n";
	out.indent();

	out << "scalar_type: \""
	<< scalarType->getVtsScalarType()
	<< "\"\n\n";
	std::vector<const EnumType *> chain;
	getTypeChain(&chain);

	for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
	const auto &type = *it;

	for (const auto &entry : type->values()) {
	out << "enumerator: \"" << entry->name() << "\"\n";
	out << "scalar_value: {\n";
	out.indent();
	// use autofilled values for vts.
	std::string value = entry->value(scalarType->getKind());
	CHECK(!value.empty());
	out << mStorageType->resolveToScalarType()->getVtsScalarType()
	<< ": "
	<< value
	<< "\n";
	out.unindent();
	out << "}\n";
	}
	}

	out.unindent();
	out << "}\n";
	return OK;
	}

	status_t EnumType::emitVtsAttributeType(Formatter &out) const {
	out << "type: " << getVtsType() << "\n";
	out << "predefined_type: \"" << fullName() << "\"\n";
	return OK;
	}

	void EnumType::emitJavaDump(
	Formatter &out,
	const std::string &streamName,
	const std::string &name) const {
	out << streamName << ".append(" << fqName().javaName() << ".toString("
	<< name << "));\n";
	}

	void EnumType::getTypeChain(std::vector<const EnumType > out) const {
	out->clear();
	const EnumType *type = this;
	for (;;) {
	out->push_back(type);

	const Type *superType = type->storageType();
	if (superType == NULL \|\| !superType->isEnum()) {
	break;
	}

	type = static_cast<const EnumType *>(superType);
	}
	}

	void EnumType::getAlignmentAndSize(size_t align, size_t size) const {
	mStorageType->getAlignmentAndSize(align, size);
	}

	const Annotation *EnumType::findExportAnnotation() const {
	for (const auto &annotation : annotations()) {
	if (annotation->name() == "export") {
	return annotation;
	}
	}

	return nullptr;
	}

	void EnumType::appendToExportedTypesVector(
	std::vector<const Type > exportedTypes) const {
	if (findExportAnnotation() != nullptr) {
	exportedTypes->push_back(this);
	}
	}

	status_t EnumType::emitExportedHeader(Formatter &out, bool forJava) const {
	const Annotation *annotation = findExportAnnotation();
	CHECK(annotation != nullptr);

	std::string name = localName();

	const AnnotationParam *nameParam = annotation->getParam("name");
	if (nameParam != nullptr) {
	name = nameParam->getSingleString();
	}

	bool exportParent = true;
	const AnnotationParam *exportParentParam = annotation->getParam("export_parent");
	if (exportParentParam != nullptr) {
	exportParent = exportParentParam->getSingleBool();
	}

	std::string valuePrefix;
	const AnnotationParam *prefixParam = annotation->getParam("value_prefix");
	if (prefixParam != nullptr) {
	valuePrefix = prefixParam->getSingleString();
	}

	std::string valueSuffix;
	const AnnotationParam *suffixParam = annotation->getParam("value_suffix");
	if (suffixParam != nullptr) {
	valueSuffix = suffixParam->getSingleString();
	}

	const ScalarType *scalarType = mStorageType->resolveToScalarType();
	CHECK(scalarType != nullptr);

	std::vector<const EnumType *> chain;
	if (exportParent) {
	getTypeChain(&chain);
	} else {
	chain = { this };
	}

	if (forJava) {
	if (!name.empty()) {
	out << "public final class "
	<< name
	<< " {\n";

	out.indent();
	} else {
	out << "// Values declared in " << localName() << " follow.\n";
	}

	const std::string typeName =
	scalarType->getJavaType(false /* forInitializer */);

	for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
	const auto &type = *it;

	for (const auto &entry : type->values()) {
	out << "public static final "
	<< typeName
	<< " "
	<< valuePrefix
	<< entry->name()
	<< valueSuffix
	<< " = ";

	// javaValue will make the number signed.
	std::string value = entry->javaValue(scalarType->getKind());
	CHECK(!value.empty()); // use autofilled values for java.
	out << value;

	out << ";";

	std::string comment = entry->comment();
	if (!comment.empty() && comment != value) {
	out << " // " << comment;
	}

	out << "\n";
	}
	}

	if (!name.empty()) {
	out.unindent();
	out << "};\n";
	}
	out << "\n";

	return OK;
	}

	if (!name.empty()) {
	out << "typedef ";
	}

	out << "enum {\n";

	out.indent();

	for (auto it = chain.rbegin(); it != chain.rend(); ++it) {
	const auto &type = *it;

	for (const auto &entry : type->values()) {
	out << valuePrefix << entry->name() << valueSuffix;

	std::string value = entry->cppValue(scalarType->getKind());
	CHECK(!value.empty()); // use autofilled values for c++.
	out << " = " << value;

	out << ",";

	std::string comment = entry->comment();
	if (!comment.empty() && comment != value) {
	out << " // " << comment;
	}

	out << "\n";
	}
	}

	out.unindent();
	out << "}";

	if (!name.empty()) {
	out << " " << name;
	}

	out << ";\n\n";

	return OK;
	}

	////////////////////////////////////////////////////////////////////////////////

	EnumValue::EnumValue(const char name, ConstantExpression value)
	: mName(name),
	mValue(value),
	mIsAutoFill(false) {
	}

	std::string EnumValue::name() const {
	return mName;
	}

	std::string EnumValue::value(ScalarType::Kind castKind) const {
	CHECK(mValue != nullptr);
	return mValue->value(castKind);
	}

	std::string EnumValue::cppValue(ScalarType::Kind castKind) const {
	CHECK(mValue != nullptr);
	return mValue->cppValue(castKind);
	}
	std::string EnumValue::javaValue(ScalarType::Kind castKind) const {
	CHECK(mValue != nullptr);
	return mValue->javaValue(castKind);
	}

	std::string EnumValue::comment() const {
	CHECK(mValue != nullptr);
	return mValue->description();
	}

	ConstantExpression *EnumValue::constExpr() const {
	CHECK(mValue != nullptr);
	return mValue;
	}

	void EnumValue::autofill(const EnumValue prev, const ScalarType type) {
	if(mValue != nullptr)
	return;
	mIsAutoFill = true;
	ConstantExpression *value = new ConstantExpression();
	if(prev == nullptr) {
	*value = ConstantExpression::Zero(type->getKind());
	} else {
	CHECK(prev->mValue != nullptr);
	*value = prev->mValue->addOne();
	}
	mValue = value;
	}

	bool EnumValue::isAutoFill() const {
	return mIsAutoFill;
	}

	bool EnumValue::isEnumValue() const {
	return true;
	}

	////////////////////////////////////////////////////////////////////////////////

	bool BitFieldType::isBitField() const {
	return true;
	}

	std::string BitFieldType::typeName() const {
	return "mask" + (mElementType == nullptr ? "" : (" of " + mElementType->typeName()));
	}

	bool BitFieldType::isCompatibleElementType(Type *elementType) const {
	return elementType->isEnum();
	}

	const ScalarType *BitFieldType::resolveToScalarType() const {
	return mElementType->resolveToScalarType();
	}

	std::string BitFieldType::getCppType(StorageMode mode,
	bool specifyNamespaces) const {
	return resolveToScalarType()->getCppType(mode, specifyNamespaces);
	}

	std::string BitFieldType::getJavaType(bool forInitializer) const {
	return resolveToScalarType()->getJavaType(forInitializer);
	}

	std::string BitFieldType::getJavaSuffix() const {
	return resolveToScalarType()->getJavaSuffix();
	}

	std::string BitFieldType::getJavaWrapperType() const {
	return resolveToScalarType()->getJavaWrapperType();
	}

	std::string BitFieldType::getVtsType() const {
	return "TYPE_MASK";
	}

	bool BitFieldType::isElidableType() const {
	return resolveToScalarType()->isElidableType();
	}

	bool BitFieldType::canCheckEquality() const {
	return resolveToScalarType()->canCheckEquality();
	}

	status_t BitFieldType::emitVtsAttributeType(Formatter &out) const {
	out << "type: " << getVtsType() << "\n";
	out << "scalar_type: \""
	<< mElementType->resolveToScalarType()->getVtsScalarType()
	<< "\"\n";
	out << "predefined_type: \""
	<< static_cast<NamedType *>(mElementType)->fullName() << "\"\n";
	return OK;
	}

	void BitFieldType::getAlignmentAndSize(size_t align, size_t size) const {
	resolveToScalarType()->getAlignmentAndSize(align, size);
	}

	void BitFieldType::emitReaderWriter(
	Formatter &out,
	const std::string &name,
	const std::string &parcelObj,
	bool parcelObjIsPointer,
	bool isReader,
	ErrorMode mode) const {
	resolveToScalarType()->emitReaderWriterWithCast(
	out,
	name,
	parcelObj,
	parcelObjIsPointer,
	isReader,
	mode,
	true /* needsCast */);
	}

	EnumType *BitFieldType::getEnumType() const {
	CHECK(mElementType->isEnum());
	return static_cast<EnumType *>(mElementType);
	}

	// a bitfield maps to the underlying scalar type in C++, so operator<< is
	// already defined. We can still emit useful information if the bitfield is
	// in a struct / union by overriding emitDump as below.
	void BitFieldType::emitDump(
	Formatter &out,
	const std::string &streamName,
	const std::string &name) const {
	out << streamName << " += "<< getEnumType()->fqName().cppNamespace()
	<< "::toString<" << getEnumType()->getCppStackType()
	<< ">(" << name << ");\n";
	}

	void BitFieldType::emitJavaDump(
	Formatter &out,
	const std::string &streamName,
	const std::string &name) const {
	out << streamName << ".append(" << getEnumType()->fqName().javaName() << ".dumpBitfield("
	<< name << "));\n";
	}

	void BitFieldType::emitJavaFieldReaderWriter(
	Formatter &out,
	size_t depth,
	const std::string &parcelName,
	const std::string &blobName,
	const std::string &fieldName,
	const std::string &offset,
	bool isReader) const {
	return resolveToScalarType()->emitJavaFieldReaderWriter(
	out, depth, parcelName, blobName, fieldName, offset, isReader);
	}

	} // namespace android